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avtechnologysworld · 3 months ago

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How AV Drawing Software Enhances Collaboration in Projects

In the dynamic world of audio-visual (AV) system integration, effective collaboration among stakeholders is essential for successful project execution. From designers and engineers to installers and technicians, seamless communication and coordination are crucial to ensuring that complex AV systems are designed, implemented, and maintained effectively.

Enter AV drawing software, also known as schematic CAD software, a specialized tool that has revolutionized the way AV professionals collaborate on projects. This powerful software enables the creation of detailed system diagrams, schematics, and documentation, serving as a common visual language that facilitates clear communication and understanding among all parties involved.

In this comprehensive blog post, we'll explore how AV drawing software enhances collaboration in AV projects, from initial design to installation and ongoing maintenance. We'll delve into the importance of collaboration, the challenges it addresses, and the key features of AV drawing software that facilitate effective teamwork and coordination.

The Importance of Collaboration in AV Projects

Successful AV projects rely on the seamless integration of various components, technologies, and systems, often involving multiple stakeholders with diverse roles and responsibilities. Effective collaboration is crucial in ensuring that everyone involved is aligned and working towards a common goal.Here are some key reasons why collaboration is essential in AV projects:

Clear Communication: AV systems can be complex, involving intricate signal flows, control systems, and interconnections between various components. Clear communication among stakeholders is vital to ensure that everyone understands the system design, requirements, and expectations.

Coordination and Synchronization: AV projects often involve multiple teams and contractors working simultaneously on different aspects of the project. Effective coordination and synchronization are necessary to avoid conflicts, delays, or errors during installation and commissioning.

Knowledge Sharing: AV projects frequently involve the integration of new technologies or specialized equipment. Collaboration facilitates knowledge sharing among team members, ensuring that everyone involved has the necessary expertise and understanding to execute the project successfully.

Efficient Problem-Solving: Inevitably, challenges and issues will arise during the course of an AV project. Effective collaboration enables team members to collectively identify and resolve problems more efficiently, leveraging diverse perspectives and expertise.

Quality Assurance: Collaboration promotes accountability and quality assurance throughout the project lifecycle. By involving stakeholders from various disciplines, potential issues or oversights can be identified and addressed before they escalate into larger problems.

Future Maintenance and Upgrades: Comprehensive documentation and knowledge sharing during the project phase facilitate future maintenance and system upgrades, ensuring a smooth transition and minimizing disruptions.

While the importance of collaboration is well-recognized, achieving effective collaboration in AV projects can be challenging due to the complexity of the systems involved and the diverse backgrounds of the stakeholders. This is where AV drawing software plays a crucial role, providing a powerful tool that enhances collaboration and streamlines communication among all parties involved.

The Challenges of Collaboration in AV Projects

While collaboration is essential for successful AV projects, it is not without its challenges. AV professionals often face various obstacles that can hinder effective teamwork and coordination. Understanding these challenges is crucial for developing strategies and leveraging tools like AV drawing software to overcome them.

Communication Barriers: AV projects often involve stakeholders with diverse backgrounds, expertise, and technical jargon. Miscommunication or misunderstandings can arise due to differences in terminology, interpretations, or assumptions, leading to potential errors or delays.

Geographical Dispersion: In today's global economy, AV projects may involve team members and stakeholders located in different regions or countries. Geographical dispersion can make it challenging to coordinate meetings, share information, and maintain effective communication channels.

Siloed Information and Data Fragmentation: Different stakeholders may use various software tools, file formats, or documentation standards, leading to fragmented information and data silos. This can hinder the seamless exchange of information and create barriers to collaboration.

Version Control and Revision Management: As AV system designs evolve and changes are made, ensuring that all stakeholders are working with the latest and most up-to-date information can be a significant challenge, especially in complex projects with multiple concurrent workstreams.

Coordination of Tasks and Timelines: AV projects often involve multiple teams working on different aspects of the project simultaneously. Coordinating tasks, timelines, and dependencies can be a daunting task, especially when dealing with tight project deadlines or unforeseen delays.

Stakeholder Buy-In and Alignment: Aligning the diverse perspectives, priorities, and expectations of various stakeholders can be a significant challenge. Achieving buy-in and ensuring that everyone is working towards a common goal is crucial for successful collaboration.

Documentation and Knowledge Transfer: Comprehensive documentation and effective knowledge transfer are essential for future maintenance, upgrades, and handover to end-users or facility managers. Ensuring that this documentation is accurate, up-to-date, and accessible to all stakeholders can be a challenge.

By understanding these challenges, AV professionals can better appreciate the importance of leveraging tools and strategies that facilitate effective collaboration, such as AV drawing software.

The Role of AV Drawing Software in Enhancing Collaboration

AV drawing software has emerged as a powerful tool that addresses many of the challenges associated with collaboration in AV projects. By providing a common visual language and a centralized platform for system design, documentation, and communication, AV drawing software enhances collaboration among stakeholders throughout the project lifecycle.Here are some key ways in which AV drawing software enhances collaboration:

Visual Communication: AV drawing software enables the creation of detailed system diagrams, schematics, and visual representations of AV systems. These visual aids serve as a common language, facilitating clear communication and understanding among stakeholders, regardless of their backgrounds or technical expertise.

Centralized Documentation: AV drawing software provides a centralized platform for creating and managing system documentation, including diagrams, cable schedules, equipment lists, and other project-related information. This centralized documentation ensures that all stakeholders have access to the latest and most up-to-date information, reducing the risk of miscommunication or errors.

Collaboration and Sharing Tools: Many AV drawing software solutions offer built-in collaboration and sharing tools, allowing multiple team members to work on the same project simultaneously. Features such as real-time collaboration, commenting, and version control enable seamless coordination and input from all stakeholders, regardless of their geographical location.

Integration with Project Management Tools: AV drawing software often integrates with popular project management and collaboration tools, enabling AV professionals to seamlessly incorporate system diagrams and documentation into their overall project workflows. This integration facilitates better coordination, task management, and progress tracking among team members.

Revision Control and Version Management: AV drawing software typically includes robust revision control and version management capabilities, ensuring that changes to system designs, diagrams, and documentation are tracked and maintained. This feature is crucial for maintaining accurate and up-to-date information throughout the project lifecycle.

Stakeholder Engagement and Buy-In: Well-designed and visually appealing system diagrams can be used for client presentations, design reviews, and stakeholder engagement activities. These visual aids can help stakeholders better understand the system design, facilitate discussions, and promote buy-in and alignment among all parties involved.

Knowledge Transfer and Future Maintenance: Comprehensive system documentation generated by AV drawing software serves as a valuable resource for knowledge transfer, training, and future maintenance activities. This documentation ensures that critical information about the AV system design, installation, and configuration is readily available to all stakeholders, including end-users, facility managers, and future maintenance teams.

By leveraging the powerful collaboration features and visual communication capabilities of AV drawing software, AV professionals can streamline their workflows, improve coordination among stakeholders, and ensure that everyone involved has a clear understanding of the AV system design and requirements.

Key Features of AV Drawing Software for Collaboration

When evaluating AV drawing software solutions for enhancing collaboration in AV projects, it's essential to consider the features and capabilities that facilitate effective teamwork and coordination. Here are some key features to look for:

Real-Time Collaboration: The ability for multiple team members to work on the same project simultaneously, with real-time updates and synchronization of changes. This feature enables seamless collaboration, even among geographically dispersed teams.

Commenting and Markup Tools: Tools that allow stakeholders to add comments, annotations, or markups directly on system diagrams or documentation. These features facilitate discussions, feedback, and clarifications, ensuring that all stakeholders are on the same page.

Version Control and Revision Tracking: Robust version control and revision tracking capabilities, enabling AV professionals to track changes made to system designs, diagrams, and documentation over time. This feature ensures that everyone is working with the latest and most up-to-date information.

Access Controls and Permissions: The ability to set access controls and permissions for different stakeholders, ensuring that sensitive information is properly protected while allowing appropriate access to those who need it.

Integration with Project Management Tools: Integration with popular project management and collaboration tools, such as Microsoft Project, Asana, Trello, or Jira. This integration enables seamless incorporation of system diagrams and documentation into overall project workflows, facilitating better coordination and task management.

Cloud-Based Collaboration: Cloud-based platforms that enable collaboration and sharing of system diagrams and documentation, regardless of geographic location or device. This feature ensures that all stakeholders have access to the latest information, even when working remotely or on-site.

Presentation and Visualization Tools: Features that allow AV professionals to create visually appealing presentations and visualizations of their system designs. These tools can be used for client presentations, design reviews, and stakeholder engagement activities, promoting better understanding and buy-in.

Mobile Access and Compatibility: Mobile access and compatibility with various devices, enabling stakeholders to access and collaborate on system diagrams and documentation from anywhere, using smartphones, tablets, or other mobile devices.

Integration with Other AV Tools: Integration with other AV industry software, such as control system programming tools, CAD applications, or project management platforms. This integration streamlines workflows and ensures seamless data exchange between different stages of the project.

Customization and Extensibility: Options for creating custom symbols, templates, or libraries to meet specific project or organizational requirements, ensuring that the software can adapt to the unique needs of each AV project.

By selecting AV drawing software that offers these collaboration-focused features, AV professionals can enhance teamwork, improve communication, and ensure that all stakeholders are aligned and working towards a common goal throughout the project lifecycle.

Best Practices for Collaborative AV System Design

Effective collaboration in AV system design requires more than just implementing the right software tools. It also involves adopting best practices that promote open communication, clear responsibilities, and a shared understanding among all stakeholders. Here are some best practices to follow for collaborative AV system design:

Define Clear Roles and Responsibilities: At the outset of the project, clearly define the roles and responsibilities of each stakeholder involved in the AV system design process. This includes identifying who is responsible for specific tasks, decision-making authority, and communication channels.

Establish Communication Protocols: Develop and communicate clear protocols for how information will be shared, how decisions will be made, and how issues or conflicts will be resolved. This ensures that everyone is on the same page and understands the communication processes.

Encourage Open Dialogue and Feedback: Foster an environment that encourages open dialogue, feedback, and constructive criticism among stakeholders. This promotes a collaborative mindset and helps identify potential issues or opportunities for improvement early in the design process.

Leverage Collaboration Tools and Features: Fully utilize the collaboration tools and features offered by your AV drawing software, such as real-time collaboration, commenting, and version control. Encourage all stakeholders to actively participate and contribute to the system design process using these tools.

Conduct Regular Design Reviews: Schedule regular design reviews with all stakeholders to review the system design, discuss progress, and address any concerns or issues. These reviews help maintain alignment, promote accountability, and ensure that the design meets the project requirements.

Maintain Comprehensive Documentation: Ensure that all system diagrams, documentation, and project information are kept up-to-date and accessible to all stakeholders. Comprehensive documentation serves as a valuable reference and facilitates knowledge transfer throughout the project lifecycle.

Embrace Diversity and Expertise: Recognize and embrace the diverse backgrounds, expertise, and perspectives of the stakeholders involved in the project. Encourage knowledge sharing and leverage the unique strengths of each team member to enhance the overall system design.

Foster a Culture of Continuous Improvement: Promote a culture of continuous improvement by regularly reviewing and refining your collaboration processes and tools. Seek feedback from stakeholders and be open to adopting new strategies or technologies that can enhance collaboration and efficiency.

Celebrate Successes and Milestones: Recognize and celebrate successes and milestones achieved throughout the project. This helps build team morale, reinforces the value of collaboration, and motivates stakeholders to continue working together effectively.

Encourage Cross-Functional Collaboration: Facilitate cross-functional collaboration by involving stakeholders from various disciplines, such as architects, engineers, contractors, and end-users, in the design process. This diverse input can help identify potential issues or opportunities for improvement that may not be apparent to a single team or discipline.

By following these best practices and leveraging the collaboration features of AV drawing software, AV professionals can foster a collaborative environment that promotes open communication, shared understanding, and effective teamwork throughout the AV system design process.

Case Studies: Collaboration in Action

To better understand the practical applications and benefits of using AV drawing software for enhancing collaboration in AV projects, let's explore a few real-world case studies:

Case Study 1: Global Corporate Headquarters AV System Integration

Project Overview: A multinational corporation was constructing a new global headquarters building, requiring a state-of-the-art AV system integration for their conference rooms, auditorium, and executive offices. The project involved stakeholders from various locations, including the corporate headquarters, regional offices, and multiple AV integration partners.

Collaboration Challenges: With stakeholders located across different time zones and regions, maintaining effective communication and coordination was a significant challenge. Additionally, the project involved integrating various AV technologies and systems from multiple vendors, requiring careful coordination and documentation.

Solution: The AV integration team implemented a cloud-based AV drawing software solution with robust collaboration features. This software enabled real-time collaboration on system diagrams, cable schedules, and equipment lists, allowing stakeholders from different locations to contribute and provide feedback simultaneously.

Benefits:

Seamless collaboration among geographically dispersed stakeholders, reducing communication barriers and facilitating real-time input and decision-making.

Centralized documentation and version control ensured that all stakeholders were working with the latest and most up-to-date information, minimizing the risk of errors or misunderstandings.

Integration with project management tools streamlined task assignments, progress tracking, and coordination among the various AV integration partners and vendors.

Visually appealing system diagrams facilitated effective client presentations and design reviews, promoting buy-in and alignment among stakeholders.

Case Study 2: University Performing Arts Center AV System Upgrade

Project Overview: A renowned university was undertaking a major upgrade of the AV systems in their performing arts center, which included replacing aging equipment and integrating new technologies. The project involved collaboration among the university's facilities team, AV consultants, and multiple AV integration contractors.

Collaboration Challenges: With multiple stakeholders and contractors involved, maintaining clear communication and coordination was crucial to ensure seamless integration and avoid delays or errors during the upgrade process. Additionally, the existing AV system documentation was outdated and incomplete, making it challenging to accurately plan and execute the upgrade.

Solution: The project team adopted an AV drawing software solution that offered robust collaboration features, such as real-time collaboration, commenting, and version control. They created detailed as-built diagrams of the existing system and shared them with all stakeholders, facilitating input and feedback during the design phase.

Benefits:

Real-time collaboration and commenting capabilities enabled effective communication and coordination among the university's facilities team, AV consultants, and contractors, ensuring alignment on the system design and requirements.

Version control features allowed the team to track changes and maintain a clear audit trail of design decisions, reducing the risk of errors or miscommunications.

Comprehensive documentation of the upgraded system ensured smooth handover and future maintainability, facilitating knowledge transfer to the university's facilities team and future contractors.

Integration with project management tools streamlined task assignments, progress tracking, and resource allocation among the various contractors involved.

Case Study 3: Large-Scale Event Venue AV System Integration

Project Overview: A new multi-purpose event venue was being constructed, requiring a comprehensive AV system integration to support a wide range of events and productions. The project involved collaboration among architects, AV consultants, general contractors, and multiple AV integration firms specializing in different aspects of the system.

Collaboration Challenges: The complexity of the venue's AV system, with multiple zones, signal routing options, and integration with various third-party systems, required meticulous planning and documentation. Effective collaboration and coordination among the diverse team of stakeholders were crucial to ensure seamless integration and avoid costly delays or errors.

Solution: The project team leveraged an AV drawing software solution with advanced collaboration and visualization features. They created detailed system diagrams, cable schedules, and equipment lists, which were shared and reviewed by all stakeholders throughout the design and implementation phases using the software's real-time collaboration and commenting tools.

Benefits:

Collaborative diagramming tools facilitated real-time input and feedback from all stakeholders, ensuring alignment on the system design and requirements.

Visually appealing system diagrams and 3D visualizations aided in client presentations and design reviews, promoting better understanding and buy-in among stakeholders.

Revision control features allowed for easy tracking of changes and maintained a clear audit trail of design decisions, reducing the risk of errors or miscommunications.

Integration with Control System Programming

In many AV projects, the AV system design and implementation involve integration with control systems that enable centralized management and operation of various components. AV drawing software often integrates with control system programming tools, further enhancing collaboration and ensuring consistency between the system design and control system configuration.When AV drawing software is integrated with control system programming tools, several benefits can be realized:

Streamlined Workflow: By integrating the system design and control system programming processes, AV professionals can work more efficiently and avoid redundant tasks or data entry. Changes made in either the AV drawing software or the control system programming tool can be synchronized, ensuring consistency across both platforms.

Accurate System Representation: The diagrams created in the AV drawing software can be directly imported into the control system programming environment, ensuring that the control system accurately reflects the designed system configuration.

Automatic Device Discovery: Some AV drawing software solutions can automatically discover and populate device information from the control system, making it easier to maintain up-to-date documentation and facilitating collaboration between the design and programming teams.

Bidirectional Updates: Changes made in either the AV drawing software or the control system programming tool can be synchronized, ensuring that both the system design and control system configuration remain consistent and up-to-date.

Simplified Commissioning: With accurate system diagrams and control system programming aligned, the commissioning process can be streamlined, reducing the time and effort required to get the AV system up and running.

By leveraging the integration between AV drawing software and control system programming tools, AV professionals can enhance collaboration among designers, programmers, and other stakeholders, ensuring that the designed system and control system configuration are always in sync and accurately represented.

Frequently Asked Questions

As you explore the use of AV drawing software for enhancing collaboration in AV projects, you may have some common questions or concerns. Here are some frequently asked questions (FAQs) and their answers to help you better understand and leverage these powerful tools:

Can AV drawing software be used for remote collaboration? Yes, many AV drawing software solutions offer cloud-based platforms or web-based interfaces that enable remote collaboration among geographically dispersed team members. These platforms allow real-time collaboration, sharing, and synchronization of system diagrams and documentation, facilitating effective teamwork regardless of location.

How secure is the collaboration feature in AV drawing software? Reputable AV drawing software vendors prioritize security and offer robust access controls, permissions, and encryption mechanisms to protect sensitive project information. These measures ensure that only authorized stakeholders can access and collaborate on system diagrams and documentation, maintaining data privacy and integrity.

Can AV drawing software integrate with video conferencing or online meeting tools? Some AV drawing software solutions offer integration with popular video conferencing and online meeting tools, enabling real-time collaboration and screen sharing during virtual meetings. This integration can further enhance collaboration by allowing stakeholders to discuss and collaborate on system diagrams and documentation during online meetings or presentations.

How difficult is it to learn and use the collaboration features in AV drawing software? Most AV drawing software solutions are designed with user-friendly interfaces and intuitive collaboration tools. Vendors typically provide comprehensive training resources, tutorials, and user guides to help stakeholders quickly learn and effectively utilize the collaboration features. Additionally, many solutions offer context-sensitive help and support resources to address any specific questions or issues that may arise.

Can AV drawing software track and manage changes made by multiple collaborators? Yes, most AV drawing software solutions offer robust version control and revision tracking capabilities, allowing them to track and manage changes made by multiple collaborators. This feature ensures that all stakeholders are working with the latest and most up-to-date information, reducing the risk of conflicts or errors.

How important is it to establish clear collaboration protocols and guidelines? Establishing clear collaboration protocols and guidelines is crucial for effective teamwork when using AV drawing software. These protocols should define roles and responsibilities, communication channels, decision-making processes, and guidelines for using the collaboration features effectively. Clear protocols help avoid confusion and ensure that all stakeholders are aligned and working towards a common goal.

Can AV drawing software be used for knowledge transfer and training purposes? Absolutely. The comprehensive system documentation generated by AV drawing software, including detailed diagrams, cable schedules, and equipment lists, can serve as valuable resources for knowledge transfer and training purposes. These materials can be used to train new team members, installers, technicians, or end-users on the AV system design, operation, and maintenance.

How can AV drawing software facilitate collaboration with clients or end-users? AV drawing software can enhance collaboration with clients or end-users by providing visually appealing system diagrams and presentations that clearly communicate the AV system design and functionality. These visual aids can be used during client meetings, design reviews, or end-user training sessions, promoting better understanding and buy-in from all stakeholders.

Can AV drawing software support collaboration on complex AV systems with multiple zones or signal routing options? Yes, modern AV drawing software solutions are designed to handle complex AV systems with multiple zones, signal routing options, and intricate signal flows. These software solutions often provide advanced tools for managing and organizing complex system designs, ensuring that even the most intricate systems can be accurately documented and collaborated on by multiple stakeholders.

How can AV drawing software be integrated with other project management or collaboration tools? Many AV drawing software solutions offer integration capabilities with popular project management and collaboration tools, such as Microsoft Project, Asana, Trello, or Jira. This integration allows AV professionals to seamlessly incorporate system diagrams and documentation into their overall project workflows, facilitating better coordination, task management, and progress tracking among team members.

These FAQs should provide you with a better understanding of how AV drawing software can enhance collaboration in AV projects and address some common concerns or questions that may arise during the implementation and utilization of these powerful tools.

Conclusion

In the dynamic and complex world of audio-visual system integration, effective collaboration among stakeholders is paramount for successful project execution. AV drawing software has emerged as a game-changer, providing a powerful tool that enhances collaboration and streamlines communication throughout the entire project lifecycle.

By leveraging the visual communication capabilities of AV drawing software, AV professionals can create detailed system diagrams and documentation that serve as a common language, facilitating clear understanding and alignment among all parties involved. The collaboration features offered by these software solutions, such as real-time collaboration, commenting, and version control, enable seamless teamwork and coordination, even among geographically dispersed teams.The integration of AV drawing software with other tools, such as control system programming software and project management platforms, further amplifies its collaborative capabilities, ensuring consistency across different aspects of the project and streamlining workflows.

As technology continues to evolve and AV systems become increasingly complex, the importance of effective collaboration will only grow. AV drawing software will continue to play a pivotal role in enabling AV professionals to design, document, and implement cutting-edge AV solutions while fostering seamless teamwork and communication among stakeholders.By embracing AV drawing software and adopting best practices for collaborative AV system design, AV professionals can position themselves at the forefront of the industry, delivering exceptional solutions that seamlessly integrate various components, technologies, and systems while ensuring alignment and buy-in from all stakeholders.

Whether you're an experienced AV professional or just starting your journey in the world of AV system integration, investing in AV drawing software and leveraging its collaboration capabilities is a valuable step towards enhancing your team's efficiency, improving communication, and delivering outstanding results for your clients.

#schematic diagram software #schematic cad software #schematic drawing program free #schematic drawing tool

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commodorez · 8 months ago

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VIC-20 Dual Serial Cart Mk I

It's finished! And guess what, I've decided to release it free and open source, available to build for yourself under CC-BY-SA 4.0. So if you want to make one for your VIC-20, go for it!

Everything you need to know to make and use one is is public. This includes schematics, KiCAD files, Gerber files to send off to a PCB manufacturer, demonstration programs, and a full user manual on how to configure and use it with your own software.

https://www.commodorez.com/vicserial.html

#vic-20 #commodore vic-20 #commodore #dual serial cart #i probably should not have queued this for halloween #im so damned proud of this one

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prokopetz · 1 year ago

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Playtest draft 0.4 of Space Gerbils is up. I wasn't going to cut it here, but then I realised that I'd re-written the same page three times in as many days, which is usually a pretty good sign that I need to pump the brakes and talk to other people about it!

Nearly every part of every chapter has undergone substantial rewrites, so a complete changelog may take some time to prepare, but the highlights include:

Updated character creation, including nearly twice as many mech suit upgrades, and support for random space gerbil proficiencies; also, you now have to draw a picture of your space gerbil

Cleanup of protocol scopes and phase cycle workflow, including the removal of mandatory Threat Clocks and drastically simplified scene-ending triggers

Stress and conditions persisting across scenes deprecated in favour of new mechanics for handling long-term damage

Split downtime and away missions into two separate rules modules

Reorganised supplementary playsheets, and created form-fillable interactive versions where applicable (assuming your PDF reader software supports that kind of thing)

Additional print-and-play minifigs and interior illustrations by @artkaninchenbau (including the one up top!); minifigs now include lineart-only versions in case you want to colour them yourself

New mech suit schematics by @pencilbrony

Finally, by repeated popular request, there is now a Penguin King Games Discord server for submitting support inquiries and playtest feedback. I reserve the right to repost any interesting comments or feedback submitted there to other social media platforms for better visibility – don't say I didn't warn you!

As always, questions, criticisms, and bizarre flames are both welcome and encouraged.

#gaming #tabletop roleplaying #tabletop rpgs #space gerbils #game design

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pheadhones · 1 year ago

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I’m getting it figured out faster than I expected, which is nice. the biggest roadblock at this point are the two different types of mystery transistors. one is a metal can that only says 3BX3 and has a 4th pin that has been cut off, the other is this yellow one ⬆️. luckily it seems like they’re all related to the buffered bypass, which I would exclude from my version anyway.

pretty exciting that the dual op amp used in the Crock DS-4 Supra Distortion is comparable to a TL082. (it says 083 but the 083 is the same dual op amp as the 082 with an additional shutdown function in a 14-pin package, and I only need the two op amps in an 8-pin config, which the 082 is.) And I’m already using the TL082 as the op amps in my pedal, ASD! Tracing, documenting and breadboarding my own clone of the DS-4 is going to be my next project while I wait for the second batch of pink ASD enclosures to get painted and printed up

#now I just need to be able to focus enough to watch tutorial videos on how to make a schematic and pcb file #i want to learn so bad but I get so bored when I try to watch any software tutorials i regress into a terrible student

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tailsthetheorist · 2 months ago

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"Tails's Joke Corner: Part 2 – 200% More Chaos, 100% More Punchlines. Btw yes ididnot take much care on this thanthe lasttime technical issues

Why did Sonic start a podcast? Because he wanted to go live at the speed of sound.

Shadow tried therapy once… …but the therapist couldn’t handle the existential edge.

Rouge stole a Chaos Emerald and said: “Oops, my kleptomania’s acting up again.”

Tails built a mech that could fold laundry. It folded itself into depression.

Amy tried Tinder, but everyone swiped left. Except Sonic. He ran from the app.

Omega updated his firmware… Now he’s emotionally unstable and slightly British.

Knuckles locked his keys in the Master Emerald. The echidna tech support said: “Have you tried punching it?”

Sonic Frontiers glitch: Sonic fell off a boss and landed in Skyrim.

Shadow in Shadow Gems be like: “I am the ultimate bug report.”

Big the Cat got lost in Cyberspace. Froggy sent him a GPS pin.

Dr. Eggman created a dating sim. It only matched him with himself.

Tails installed Windows 98 on the Tornado. Now it runs slower than Classic Sonic.

Sonic ordered a chili dog. Shadow asked, “Is that your purpose?”

Shadow’s keyboard only has edge keys. Ctrl + Alt + Existential Crisis.

Silver came from the future just to say: “Bro, 06 still sucks.”

Amy has a hammer. Sonic has trauma.

Eggman tried creating a streaming service. It’s called Eggflix and only plays his TED Talks.

Chaos tried swimming in Gatorade. He evolved into an energy drink mascot.

Rouge infiltrated Area 51. Found Shadow’s original edgy design sketches.

Tails got stuck in Blender. Not the software. The kitchen appliance.

Shadow used Chaos Control to skip the tutorial. Now he doesn’t know how to play life.

Sonic forgot his rings. Shadow said, “You dropped your bling, faker.”

Blaze lit her stove with her fingers. The kitchen is gone now.

Knuckles downloaded Duolingo. He still can’t read ancient text.

Omega’s internal clock runs on doom energy.

Sonic Heroes but every team talks at once. “Sonic! Espio! Charmy! Eggman?!?”

Shadow Generations: The camera is your enemy.

Tails accidentally created ChatGPT. Now the Tornado argues with him.

Eggman made a clone of himself. He lost an argument to it.

Sonic got stuck on a wall. Knuckles asked, “You climbing or glitching?”

Amy’s hammer is Bluetooth now. It plays Spotify mid-swing.

Big became a Twitch streamer. Category: Just Froggin’.

Shadow’s motorcycle runs on trauma.

Tails modded Minecraft. It now runs in the Tornado’s cockpit.

Sonic tried sleeping. His dreams were just speedruns.

Knuckles’ dating profile: “Guardian of your heart. Punch first, ask later.”

Eggman’s mech broke. He rage quit and blamed lag.

Metal Sonic tried making toast. Set the house on fire with precision.

Sonic did a kickflip. Amy said: “Husband material.”

Shadow Generations glitch: “Camera said: I do not perceive you.”

Sonic blinked… And ended up in the ARK again.

Shadow joined a meditation group. He yelled “CHAOS CONTROL” in the first 5 minutes.

Tails tried yoga. Now he’s a pretzel with an IQ of 300.

Rouge wore stealth shoes. Still heard by Knuckles from 3 zones away.

Silver made a TikTok.

ITSTHENEARFUTURE

Eggman uses Microsoft Paint for schematics.

Blaze sneezed. The entire zone caught fire.

Knuckles found a riddle. Punched it. Problem solved.

Sonic Generations glitch: Sonic yeeted himself into the title screen.

Shadow said "Maria" so hard the game crashed.

Tails made a backup of Shadow’s memory. Now it’s just labeled “DO NOT OPEN – TOO MUCH EDGE.”

Shadow blinked in Shadow Gems… Game crashed out of fear.

Knuckles got a library card. Then punched the librarian for "being too mysterious."

Eggman tried stand-up comedy. The punchline exploded.

Sonic ran so fast, he entered another Sonic game. It was Sonic Boom. He immediately ran back.

Tails made a smart fridge. Now it lectures him about nutrition.

Amy joined a rock band. Her instrument? The hammer, obviously.

Omega tried painting. The canvas caught fire from rage.

Shadow sat in a therapist's chair. The chair disintegrated.

Sonic got a sponsorship deal. It was for anti-glitch spray. He refused.

Rouge tried yoga. She stole everyone’s mats.

Knuckles made a smoothie. He punched the fruit directly.

Shadow hacked the game code. He replaced all NPCs with himself.

Sonic found a bug in Shadow Gems. Shadow just called it a “feature.”

Tails asked ChatGPT for advice. Now he’s building a sarcasm bot.

Eggman joined Twitter. He blocked Sonic in real life.

Big the Cat wandered into Final Fortress. No one knows how. Not even Big.

Silver said “IT’S NO USE” at a coffee shop. Now he's banned for life.

Shadow downloaded Spotify. Every playlist is titled “Angst.”

Sonic tried ASMR. Too fast. The mic exploded.

Tails built a drone. It follows Shadow and whispers “edgy…”

Knuckles tried sushi. Punched the wasabi.

Amy wrote a fanfic. Sonic moved to another timeline.

Omega tried gardening. Now he grows C4.

Shadow entered cyberspace. The internet got emotional.

Sonic got invited to Smash. Shadow broke the door down asking “WHERE’S MY INVITE?!”

Tails made a Sonic AI. It speedran its own shutdown.

Eggman bought a Fitbit. Declared war on his step count.

Rouge got a diamond sponsorship. She stole the diamonds right after.

Sonic accidentally boosted into a mirror. Said “Sorry faker” to himself.

Knuckles started a podcast. Only one episode. It’s just grunting.

Shadow turned off motion blur. The game lost 90% of its style.

Tails programmed a meme bot. It only posts "Shadow = edgy" memes.

Silver tried therapy. Time travel made every session awkward.

Omega entered a rap battle. He dropped bars and missiles.

Big became a motivational speaker. His only advice: “Froggy.”

Shadow walked into a Hot Topic. Got hired on sight.

Sonic got a glitch where he turned into a car. Shadow drove him off a cliff for “justice.”

Rouge disguised herself as a Chaos Emerald. Knuckles fell for it.

Tails made an AI Sonic. It spent 3 hours saying “Gotta go fast.”

Eggman’s mech had a voice assistant. It refused to listen unless bribed with EggTokens.

Shadow stared into the void. The void blinked.

Knuckles tried a Rubik’s cube. Solved it with one punch.

Sonic made a cooking show. Every dish was chili dogs.

Silver said “It’s no use” to a vending machine. It worked.

Omega tried to join Instagram. Got banned for explosive selfies.

Amy went to therapy. The hammer got its own seat.

Tails accidentally opened the multiverse. Now there are 12 Sonics and a plumber.

Shadow tried journaling. It was just the word “darkness” 400 times.

Sonic met his alternate self. They raced. Time imploded.

(Btw there might be errors bc of autocorrect in the text like reblog this took me a whilee btw what shoud i do next theory or etc?)

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kalelactually · 3 months ago

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second chapter of ratchlock mecha au !! you can find the first one on my tumblr profile or my ao3 — as always, inspired by @keferon ‘s mecha au, based on pacific rim !! check out their blog, it’s full of delicious art. :3

chapter summary :: in which ratchet swears and has a vaguely southern accent, deadlock still hasn’t woken up, and the author uses the phrase “back to the garage” a ridiculous amount of times. heavily sprinkled with apostrophes.

thx for reading, enjoy !!! <33

fun little note: read ratchet’s voice and thoughts with a southern accent / drawl. it makes for an exhausted, no bs kind of hilarity. i can’t explain it to you, but trust me. XD

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• send out a signal, and i’ll fly low (i’ll find you by the light of your halo) — chapter two

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Ratchet stands on a log that’s halfway suspended off the ground, the figure splayed out in front of him (he’s hoping the height will give him a better vantage point to visually assess priority injuries.) He’d just made a run to the garage and hauled back whatever supplies Lassie (his all-terrain rover) could fit.

(And listen, he didn’t pick the name, that was all First Aid — affectionately named due to her wide dual antennae and Rough Collie color scheme. Ratchet kind of loves it, but don’t tell Aid. He’ll get ideas.)

Wheelie (one of his med drones, also named by Aid. big surprise,) flits around overhead, actively taking visuals of the figure and digitizing partial schematics based off those. He chirps inquisitively from the side, systems whirring as Ratchet jams a hastily-assembled sandwich in his mouth (he forgot to eat it on the way.)

According to Ratchet’s initial assessment, the figure appears not to have any sort of respiration system — sure, there’s external vents on the figure’s upper torso, but there’s no circulatory air flow or chest rise and fall to indicate lungs. That, fortunately, takes two major concerns out of play.

Having finished his sandwich, Ratchet jumps off the log to reassess the mouth and airway. The airway’s still patent, and Ratchet’s pleased to note that the pink liquid dripping out of the mouth and nose seems to have clotted on its own.

And the fact that the liquid stopped flowing on its own indicates that the being likely has some type of clotting factor, or self-diagnostic repair system — which in turn indicates some type of independent processes, and a partial measure of intelligence. And while it might be a new branch of A.I. programming or something similar he hasn’t come across yet — he gets the feeling that isn’t just a new software. (Honestly, either way, he still notes it down with a carefully restrained glee.)

No, something in his gut is telling him that this — this figure, being, or whatever it is — is simply just different. True, it could be some experimental military hardware or equipment, like a remote-controlled mecha suit (which was his initial hunch) but this thing? No. This thing’s alive — and he thinks it’s sentient.

(And this thought, if verbalized to anyone else, might have them look at him like he’s crazy and send him in for a couple rounds of psych. And like, he loves Chromedome and his sweetheart of a husband, but he’d rather not, thanks.)

He doesn’t know how to explain it. He just knows. However, based on that hell of an assumption — he’s currently making a lot of choices that could and will come back to bite him later. (Such as not reporting whatever the hell happened in the last two hours to someone who can actually do something about… well, whatever this thing is. Patient? Yeah, patient works.)

He shakes his head, forcing himself out of it. He’ll have more than enough time to second guess his decisions later. Right now, he has a patient, and that’s all he’s ever needed to know.

Having already felt the being’s neck earlier to try and detect any type of pulse (and come up with nothing,) he moves on to assess and neutralize any major fluid leaks as best he can before transport. He marks down the worst bits of exposed internals and hot spots as he does.

The figure’s broken shoulder joint will have to be stabilized before he can even think about transport, and when he shifts the being’s right arm (with the help of Wheelie,) he finds deep lacerations running through the upper abdomen. (And it. It looks bad. Like it was shredded — like someone took claws to it.)

Ratchet’s not going to even begin to unpack that. Unfortunately, there’s not much he can do for the abdomen at the moment without a welder, but he clamps torn fuel lines and caps exposed wiring in an attempt to buy time.

He takes a moment and sends out an alert for the rest of the med drones to meet them at the site, inputting coordinates with one hand and grabbing a sample jar with the other, an easy confidence in his posture that radiates experience.

And meanwhile the glee from earlier keeps coming back, growing up his spine the more he examines the being’s mechanics (mechanics that someone, somewhere) crafted and poured into them. He runs his fingers down a seam, featherlight in a kind of reverence — even bashed and dented to high heaven, this figure is a vision.

He drops his hand as he catches himself — he still has a patient here, and they’re not getting any better out here exposed to the elements. He really needs to get his priorities straight — he hasn’t slipped like this at a scene since his very early days, when everything was still new, fresh, and stimulating. His entirely professional mechanic’s awe (and mild jealousy) over the being’s construction can keep.

He carefully takes a sample of the pink liquid, catching it in the sample jar as it drips directly from an open line in the being’s dislocated shoulder just before he binds it closed. He tucks the jar safely in his bag, wrapping it in shop towels just in case it decides to corrode its container. It hasn’t shown any signs of corrosion to the nearby environment or his work gloves so far, but you can never be too careful.

(The incident at Jasper Base II comes to mind. Some people could benefit from basic lab rules. Why, yes, he is looking at you, Wheeljack.)

That taken care of, he grabs some construction grade rebar and an extra tarp he had lying around to use as a temporary splint. With Wheelie’s help, he ends up being able to stabilize the shoulder relatively easily, despite the being’s size (and current state of unhelpfulness.)

And once that’s complete, he decides he’s finished what he can, quickly packing up the site. The figure’s as stable as they’re going to get before transport, and the drone squad is almost here — there’s absolutely the concern of more going on with the figure internally that he can’t ascertain, and he needs to get them in for extensive scanning like, yesterday.

He puts in another call to Orion while he waits — but just like earlier when he called at the garage, Orion still doesn’t pick up. And while Ratchet’s never been one for paranoia (that was always Red Alert’s thing,) he’s starting feel something chewing away at the back of his brain. Something feels off about this whole situation (aside from the huge, hulking metal figure,) and he’s never been one to discount his intuition.

(Mostly because it’s hard-earned — but also because he has the skills, knowledge, and temperament to back it up.)

He taps the figure’s undamaged shoulder carefully (as if to acknowledge that they’re still there and very much real,) sighing loudly. The whole shift of his body changes as he does, exhaustion coloring his bones for the first time since he stumbled across a figure in the woods. He glances up at the figure’s face a second later, looking for any hint of consciousness, something to tell him that they’re alive, and listening.

“Hey. I don’t know if you can hear me, but,” and he pauses for a second. “Well, weirder things have happened. Hopefully you’re just out cold — you better not be in a coma or something, because I have no idea how to pull you out. I do not get paid enough for that.”

He watches Wheelie flit around Lassie, her antennae moving up and down as she tracks the drone’s movements, and if Ratchet didn’t know better he’d say they were playing like a couple of kids. Cute, carefree, and oblivious to the world around them that witnessed upheaval only a few hours ago. He continues.

“I hope you’ve got a name. Mine’s Ratchet, in case you were wondering. It’s military,” (and that part is said longsufferingly.) “I’ve just been calling you Scrappy in my head. I hope that works for you, because until you wake up, or come out of stasis, or whatever, that’s what you got.”

He absentmindedly starts brushing dried mud and old paint off the being’s arm as he talks. “And you better wake up soon, kiddo, I got questions. My best friend isn’t answering my calls, which means you’re gonna be stuck with ‘em; so please, be prepared. I’ve got a notebook stash to rival Alpha Trion’s and a 82 year old whiskey cellar on hand, so you better have some answers,” and here, he uncovers some gray paint, voice trailing away as he brushes off more dirt. His eyes widen, eyebrows raising as he reads.

“D34D106K, huh?” and he lets out a whistle. “Hell of a name, if that is, actually, your name. Well,” and he shrugs, “gives me somewhere to start, I guess.

He pats D34D106K on the arm consolingly. Damn, and if that isn’t a mouthful — Scrappy’s better, honestly.

“Can’t make any promises, of course, kiddo, but I’ll do my best to find out what happened to you.” He glances down at his PADD, glaring at Orion’s contact without any real heat. “That is, if my best friend ever feels like calling me back.”

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thx again for reading !! appreciate each and every one of you. <33

disclaimer :: i am not an engineer, a mechanic, or a programmer; i know nothing of which i speak. but i do happily take feedback, so if something seems wildly off, pls let me know and i’ll go bother my mechanic relatives until i figure it out.

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• character credits belong to hasbro, idw comics, and the respective transformers franchise. all works enclosed are solely my own, and are purely fictional and meant for the enjoyment of the reader. please do not republish, steal, or likewise pass off my works as your own in any manner, otherwise you will be blocked and reported. ty !! •

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gwendpots · 18 days ago

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The Role of Machine Learning in Next-Gen Schematic Drawing Tools

In the rapidly evolving world of technology and design, schematic drawing tools have become essential for professionals and hobbyists alike. Whether creating complex electrical circuits, audiovisual system layouts, or network diagrams, schematic drawing software simplifies visualization and planning. Among these tools, free schematic drawing software has opened doors for many users who previously faced barriers due to cost or complexity.

Now, a new wave of innovation is pushing these tools even further: Machine Learning (ML). By embedding machine learning algorithms into schematic software, developers are creating next-generation tools that are smarter, faster, and more intuitive than ever before. This blog explores how machine learning is transforming schematic drawing tools and what it means for users across industries.

Understanding Machine Learning and Its Potential

Machine learning, a subset of artificial intelligence (AI), enables computers to learn from data and improve their performance without explicit programming. When applied to schematic drawing tools, ML algorithms analyze patterns, user behavior, and design principles to make intelligent decisions, automate repetitive tasks, and enhance the overall user experience.

How Machine Learning Enhances Free Schematic Drawing Software

1. Automated Component Recognition and Placement

Machine learning models trained on thousands of schematic designs can recognize components based on minimal user input and suggest optimal placements. This reduces the time spent searching for components and manually arranging them.

For example, as you drag a resistor or amplifier into your design, the software can anticipate where it fits best within the circuit layout, based on similar past projects.

2. Predictive Wiring and Connection Suggestions

One of the trickiest parts of schematic design is drawing accurate connections between components. ML algorithms analyze common wiring patterns and electrical rules to predict and auto-route connections.

This feature helps users avoid mistakes, reduces clutter, and accelerates workflow, especially in complex schematics.

3. Real-Time Error Detection and Correction

Machine learning continuously scans your schematic for errors like missing connections, short circuits, or incompatible components. Unlike traditional rule-based checks, ML adapts and improves its error detection by learning from a vast number of designs and user corrections.

This results in more accurate and contextual error alerts, helping users fix issues early.

4. Personalized User Assistance

By tracking individual user habits, ML-powered free schematic drawing software can tailor suggestions, shortcuts, and design templates that fit each user’s style and project needs. This personalization reduces the learning curve and boosts productivity.

5. Enhanced Collaboration and Version Control

Machine learning also improves collaboration features by intelligently merging changes from multiple users and predicting potential conflicts before they happen. Teams can work together more smoothly, even remotely.

Benefits of Machine Learning-Driven Schematic Drawing Tools

Efficiency: Automation reduces manual workload and accelerates design cycles.

Accuracy: Smarter error detection prevents costly mistakes.

Accessibility: Beginners get AI-powered guidance that simplifies complex processes.

Customization: Personalized interfaces and workflows adapt to user preferences.

Collaboration: Enhanced team workflows make project management seamless.

Real-World Use Cases

Machine learning’s impact is visible across sectors:

Education: Students benefit from guided schematic design experiences that adapt to their learning pace.

Audio Visual (AV) Design: AV professionals use ML-powered tools to design intricate rack and system layouts more efficiently.

Electronics Engineering: Engineers rely on predictive wiring and error detection to create faultless circuits faster.

Hobbyists: Enthusiasts enjoy intuitive interfaces that help turn ideas into workable schematics with minimal technical expertise.

Challenges and Future Outlook

Despite the promise, integrating machine learning into free schematic drawing software comes with challenges:

Data Privacy: ML requires large datasets, raising concerns about sensitive design information.

Computational Resources: Advanced ML features demand significant processing power, potentially limiting performance on low-end devices.

User Trust: Over-reliance on AI suggestions may sometimes overlook human intuition and creativity.

Looking ahead, continued improvements in ML models, combined with cloud computing and edge AI, will address these challenges. We can expect schematic drawing tools that are even more intelligent, adaptive, and accessible.

Conclusion

Machine learning is revolutionizing free schematic drawing software, transforming it from simple drafting utilities into powerful, intelligent design assistants. By automating tedious tasks, enhancing error detection, and personalizing user experiences, ML-driven schematic tools are enabling designers to work smarter and faster.

Whether you’re an AV integrator, an electronics engineer, or a student, embracing these next-gen schematic drawing tools can dramatically improve your workflow and project outcomes.

The future of schematic design is here, powered by machine learning—are you ready to explore it?

#technology #software #free schematic drawing software

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techav · 7 months ago

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On Documenting History

I've mentioned a couple times before that the first computer I really got to use was the Sanyo MBC-1000, a Z80-based CP/M machine. In the greater picture it was a largely forgettable machine with little to differentiate it from its competitors. Which is pretty much what has happened. There are a few units sitting in museums and the odd Reddit post of someone acquiring one, but not much real information.

So last year I started taking a closer look at the machine I grew up with to try to learn what I could about how it works. And in the interest of preservation and education, I've pushed my notes to a GitHub repository.

There is much more work to be done, but so far I've made an entry-level attempt at reverse-engineering & annotating a disassembly of the boot ROM, documented all of the components on the main logic board, documented the expansion card specifications including modeling the slot and mounting brackets in freecad as well as the board outline in kicad. I've also made an effort to reverse engineer a schematic for the serial expansion card — which as far as I am currently aware is the only official expansion card that was ever produced.

I plan to continue adding notes to this repository as I learn more about this machine. It may not have made any significant historical impact, but it was a solid machine that was more than capable of doing some serious work. I believe it can still teach us something and deserves to be remembered.

I do have a secondary motive for taking such a detailed look at this machine though — at some point in the last 20 years we misplaced the box containing its boot disks and other software. I have found an old Teledisk image of an MBC-1000 boot disk which does appear to have all of the important CP/M components (like the disk format utility, sysgen, and assembler), but there is no guarantee it will work. Beyond that, its floppy drives were never terribly reliable and out-of-production magnetic media does not have much life left anyway. I want to come up with some way to attach a modern storage device to the machine to breathe new life into it (a Gotek would probably be easiest since it uses standard Shugart floppy drives, but I would love to come up with a way to give it an SD card interface or something like that). All this information will be useful for developing anything new for this machine.

#vintage computing #sanyo computer #mbc 1000 #zilog z80 #cp/m #github #reverse engineering #preservation

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avtechnologysworld · 3 months ago

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The Future of AV Wiring Design: AI and Automation in Diagram Software

In the rapidly evolving world of audio-visual (AV) systems, staying ahead of the curve is essential for professionals seeking to maintain a competitive edge. As technology continues to advance at an unprecedented pace, the future of AV wiring design is poised to undergo a transformative shift, driven by the integration of artificial intelligence (AI) and automation into AV wiring diagram software.The advent of AI and automation in this domain promises to revolutionize the way AV professionals approach wiring design, offering a myriad of benefits that extend beyond mere efficiency gains. From intelligent component selection and automatic cable routing to predictive maintenance and real-time system optimization, these cutting-edge technologies have the potential to streamline workflows, enhance accuracy, and unlock new realms of creativity and innovation.As the demand for sophisticated AV systems continues to grow across various industries, embracing the future of AV wiring design will become increasingly crucial for professionals seeking to deliver exceptional results and stay ahead of the competition. By leveraging the power of AI and automation, AV experts can elevate their craft to new heights, ensuring that their designs not only meet but exceed the evolving needs and expectations of their clients.

Introduction

In today's technology-driven world, audio-visual (AV) systems have become an integral part of our lives, from home entertainment to corporate presentations, and even live events. As these systems grow in complexity, the need for efficient and accurate wiring diagrams has become paramount. Professionals in the AV industry rely on specialized wire diagram program tools to create comprehensive wiring diagrams, ensuring seamless installations, efficient troubleshooting, and effective communication.

However, the future of AV wiring design is poised to undergo a transformative shift, driven by the integration of artificial intelligence (AI) and automation into AV wiring diagram software. These cutting-edge technologies promise to revolutionize the way professionals approach wiring design, offering a myriad of benefits that extend beyond mere efficiency gains.In this comprehensive blog post, we'll explore the exciting world of AI and automation in AV wiring diagram software, delving into the potential applications, benefits, and challenges that lie ahead. We'll examine how these technologies can streamline workflows, enhance accuracy, and unlock new realms of creativity and innovation in the AV industry.Whether you're a seasoned AV professional or just starting out in the field, this guide will provide valuable insights into the future of AV wiring design, empowering you to stay ahead of the curve and embrace the transformative potential of AI and automation.

1. Intelligent Component Selection and Compatibility Analysis

One of the most promising applications of AI in AV wiring diagram software is intelligent component selection and compatibility analysis. By leveraging machine learning algorithms and vast databases of AV equipment specifications, these advanced systems can assist professionals in selecting the most suitable components for their projects, taking into account factors such as compatibility, performance requirements, and project constraints.

Key Benefits of Intelligent Component Selection:

Streamlined Selection Process: AI-powered component selection tools can quickly analyze project requirements and recommend the most appropriate components, saving valuable time and effort that would otherwise be spent manually researching and evaluating options.

Compatibility Assurance: By cross-referencing component specifications and analyzing compatibility matrices, AI systems can ensure that selected components will work seamlessly together, minimizing the risk of compatibility issues and potential system failures.

Performance Optimization: Advanced AI algorithms can analyze performance metrics and recommend components that will deliver optimal system performance, taking into account factors such as audio quality, video resolution, and latency requirements.

Future-Proofing: As new AV technologies and components emerge, AI systems can be trained to recognize and incorporate these advancements, ensuring that professionals have access to the latest equipment and can future-proof their designs.

By leveraging intelligent component selection and compatibility analysis, AV professionals can streamline their design processes, reduce the risk of costly errors, and deliver high-performance AV systems that meet or exceed their clients' expectations.

2. Automatic Cable Routing and Optimization

One of the most time-consuming and error-prone tasks in AV wiring design is cable routing and management. With the integration of AI and automation into AV wiring diagram software, professionals can benefit from advanced cable routing algorithms that optimize cable paths, minimize clutter, and ensure adherence to industry best practices.

Key Benefits of Automatic Cable Routing and Optimization:

Efficient Cable Management: AI-powered cable routing algorithms can automatically calculate the most efficient cable paths, taking into account factors such as cable lengths, bend radii, and cable tray capacities, ensuring a clean and organized wiring layout.

Reduced Installation Time: By optimizing cable paths and minimizing clutter, automatic cable routing can significantly reduce the time and effort required for physical cable installations, leading to faster project completion and cost savings.

Compliance with Standards: Advanced cable routing algorithms can be programmed to adhere to industry standards and best practices, ensuring that wiring designs comply with relevant regulations and guidelines, minimizing the risk of non-compliance issues.

Scalability and Adaptability: As AV systems become increasingly complex, AI-powered cable routing algorithms can adapt and scale to handle even the most intricate wiring designs, providing a consistent and reliable solution for professionals.

By embracing automatic cable routing and optimization, AV professionals can streamline their workflows, reduce the risk of errors, and deliver visually appealing and functional wiring designs that meet the highest standards of quality and efficiency.

3. Predictive Maintenance and System Monitoring

In addition to streamlining the design process, the integration of AI and automation in AV wiring diagram software can also revolutionize the way professionals approach system maintenance and monitoring. By leveraging advanced machine learning algorithms and real-time data analysis, these cutting-edge systems can provide predictive maintenance insights and continuous system optimization.

Key Benefits of Predictive Maintenance and System Monitoring:

Proactive Maintenance: AI-powered systems can analyze real-time data from AV components, identifying potential issues or performance degradation before they become critical problems. This proactive approach to maintenance can help prevent system downtime and extend the lifespan of AV equipment.

Optimized System Performance: By continuously monitoring system performance and analyzing data patterns, AI algorithms can identify opportunities for optimization, such as adjusting signal routing, fine-tuning audio levels, or recalibrating video settings, ensuring that AV systems operate at peak efficiency.

Predictive Failure Analysis: Advanced machine learning models can be trained to recognize patterns and indicators of potential component failures, enabling professionals to take preventive measures and plan for timely replacements or upgrades.

Remote Monitoring and Diagnostics: With the integration of IoT (Internet of Things) technologies, AI-powered AV wiring diagram software can facilitate remote monitoring and diagnostics, allowing professionals to troubleshoot and optimize systems from anywhere, reducing the need for on-site visits and enabling more efficient service delivery.

By leveraging predictive maintenance and system monitoring capabilities, AV professionals can proactively address potential issues, optimize system performance, and extend the lifespan of AV installations, ultimately providing a superior user experience and maximizing the return on investment for their clients.

4. Generative Design and Creative Exploration

While AI and automation in AV wiring diagram software offer numerous practical benefits, they also hold the potential to unlock new realms of creativity and design exploration. By leveraging generative design algorithms and machine learning models, these advanced systems can assist professionals in exploring novel design concepts, pushing the boundaries of what is possible in AV system integration.

Key Benefits of Generative Design and Creative Exploration:

Innovative Design Concepts: AI-powered generative design algorithms can analyze project requirements, constraints, and design principles to generate novel and innovative wiring design concepts, inspiring professionals to think outside the box and explore new possibilities.

Design Optimization: Machine learning models can analyze and optimize design parameters such as cable lengths, component placements, and signal routing, ensuring that the final design meets performance and aesthetic requirements while adhering to industry standards and best practices.

Design Iteration and Refinement: With the ability to rapidly generate and evaluate multiple design iterations, AI-powered systems can assist professionals in refining and fine-tuning their designs, leading to more polished and optimized solutions.

Collaborative Design Exploration: By integrating AI-powered design tools with collaborative platforms, AV professionals can engage in real-time design exploration and iteration, fostering a collaborative environment where ideas can be shared, evaluated, and refined collectively.

By embracing generative design and creative exploration capabilities, AV professionals can push the boundaries of what is possible in AV system integration, delivering innovative and visually stunning designs that captivate audiences and exceed client expectations.

5. Augmented Reality (AR) and Virtual Reality (VR) Integration

As the lines between the digital and physical worlds continue to blur, the integration of augmented reality (AR) and virtual reality (VR) technologies into AV wiring diagram software presents exciting opportunities for professionals in the AV industry. These immersive technologies can revolutionize the way wiring designs are visualized, presented, and experienced, opening up new avenues for collaboration, training, and client engagement.

Key Benefits of AR and VR Integration:

Immersive Design Visualization: AR and VR technologies can provide AV professionals with an immersive and interactive way to visualize their wiring designs, allowing them to explore and navigate virtual representations of AV systems in a realistic and intuitive manner.

Collaborative Design Review: By leveraging AR and VR capabilities, AV professionals can conduct collaborative design reviews with team members and clients, enabling real-time feedback and decision-making within a shared virtual environment.

Training and Simulation: AR and VR can be used to create realistic simulations of AV system installations and maintenance procedures, providing a safe and controlled environment for training and skill development.

Client Engagement and Presentations: Immersive AR and VR experiences can be utilized to engage clients and stakeholders, providing them with a visually stunning and interactive way to experience proposed AV system designs, enhancing their understanding and building confidence in the proposed solutions.

By integrating AR and VR technologies into AV wiring diagram software, AV professionals can unlock new levels of collaboration, visualization, and client engagement, setting themselves apart in a highly competitive industry and delivering truly remarkable experiences.

AV System Integration Software

In addition to wiring diagram software, AV professionals often rely on AV system integration software to streamline the design, installation, and documentation of complex AV systems. These software tools provide a comprehensive platform for managing all aspects of an AV project, from system design and quoting to project management and documentation.One popular example of AV system integration software is D-Tools System Integrator (SI), which offers a range of features specifically designed for AV professionals, including:

System Design: D-Tools SI allows you to design and model complex AV systems, including room layouts, equipment lists, and wiring diagrams.

Quoting and Proposal Generation: The software provides tools for generating accurate quotes and proposals, including labor and material costs, ensuring that you can provide clients with detailed and transparent pricing.

Project Management: D-Tools SI offers project management capabilities, allowing you to track tasks, schedules, and resources, ensuring that your projects stay on track and within budget.

Documentation and Reporting: The software generates comprehensive documentation and reports, including system diagrams, equipment lists, and installation instructions, ensuring that your projects are properly documented and easy to maintain or troubleshoot in the future.

Integration with Other Tools: D-Tools SI integrates with various AV wiring diagram software tools, such as XTEN-AV and Microsoft Visio, allowing for a seamless workflow and data exchange.

By combining AV wiring diagram software with AV system integration software, professionals can streamline their workflows, improve efficiency, and deliver high-quality AV solutions to their clients.

User Queries and Answers

What is the role of AI and automation in wire diagram program tools for AV professionals?

AI and automation are set to play a transformative role in wire diagram program tools for AV professionals. These cutting-edge technologies can streamline workflows, enhance accuracy, and unlock new realms of creativity and innovation in AV wiring design. From intelligent component selection and automatic cable routing to predictive maintenance and generative design exploration, AI and automation have the potential to revolutionize the way AV professionals approach wiring design and system integration.

How can AI assist in component selection and compatibility analysis for AV wiring diagrams?

AI can assist in component selection and compatibility analysis by leveraging machine learning algorithms and vast databases of AV equipment specifications. These advanced systems can analyze project requirements, recommend suitable components, ensure compatibility between selected components, optimize performance metrics, and future-proof designs by incorporating new technologies as they emerge.

What are the benefits of automatic cable routing and optimization in AV wiring diagram software?

Automatic cable routing and optimization offer several benefits, including efficient cable management, reduced installation time, compliance with industry standards, and scalability to handle complex wiring designs. AI-powered cable routing algorithms can calculate the most efficient cable paths, minimize clutter, and ensure adherence to best practices, leading to visually appealing and functional wiring layouts.

How can AI and automation contribute to predictive maintenance and system monitoring in AV installations?

AI and automation can contribute to predictive maintenance and system monitoring by leveraging machine learning algorithms and real-time data analysis. These advanced systems can provide proactive maintenance insights, identify potential issues or performance degradation before they become critical problems, optimize system performance through continuous monitoring, and facilitate remote monitoring and diagnostics through IoT integration.

What is the role of generative design and creative exploration in AI-powered AV wiring diagram software?

Generative design and creative exploration play a crucial role in AI-powered AV wiring diagram software. By leveraging generative design algorithms and machine learning models, these advanced systems can assist professionals in exploring novel design concepts, optimizing design parameters, rapidly generating and refining design iterations, and fostering collaborative design exploration within a team.

How can augmented reality (AR) and virtual reality (VR) technologies enhance AV wiring diagram software?

AR and VR technologies can enhance AV wiring diagram software by providing immersive and interactive visualization experiences. These technologies can enable AV professionals to explore virtual representations of their wiring designs, conduct collaborative design reviews with team members and clients, create realistic simulations for training and skill development, and deliver visually stunning and engaging client presentations.

What factors should be considered when integrating AI and automation into AV wiring diagram software?

When integrating AI and automation into AV wiring diagram software, several factors should be considered, including data quality and availability, user experience and interface design, ethical considerations (such as bias and transparency), scalability and performance, security and privacy concerns, and the overall impact on workflows and processes within the AV industry.

How can AV system integration software benefit from the integration of AI and automation in wiring diagram tools?

AV system integration software can benefit from the integration of AI and automation in wiring diagram tools in several ways. For example, intelligent component selection and compatibility analysis can streamline the system design process, while automatic cable routing and optimization can enhance the accuracy and efficiency of wiring documentation. Additionally, predictive maintenance and system monitoring capabilities can improve the overall management and maintenance of AV installations.

User Case Studies

Case Study 1: Leveraging AI for Intelligent Component Selection in a Large-Scale Corporate AV Project

A renowned AV integration company was tasked with designing and installing a state-of-the-art AV system for a multinational corporation's new headquarters. The project involved multiple conference rooms, training facilities, and a large auditorium, each with its own unique requirements and specifications.In the past, the company's design team would spend countless hours researching and evaluating various AV components to ensure compatibility and optimal performance. However, with the integration of AI-powered component selection capabilities into their AV wiring diagram software, the process was streamlined significantly.

The AI system analyzed the project requirements, including desired functionalities, performance metrics, and budget constraints, and recommended a comprehensive list of compatible components from leading manufacturers. The team was able to quickly review and refine the recommendations, ensuring that the selected components met all the project's needs while optimizing performance and future-proofing the design.

Additionally, the AI system's compatibility analysis capabilities ensured that all the selected components would work seamlessly together, minimizing the risk of compatibility issues and potential system failures. This not only saved the team valuable time but also provided peace of mind knowing that their design would be reliable and efficient.By leveraging the power of AI for intelligent component selection, the AV integration company was able to deliver a cutting-edge AV system that exceeded the client's expectations, while also streamlining their design process and reducing the risk of costly errors or rework.

Case Study 2: Enhancing Design Visualization with AR and VR Integration

A live event production company, known for its innovative and visually stunning AV setups, was exploring ways to enhance their design visualization and client engagement processes. They recognized the potential of augmented reality (AR) and virtual reality (VR) technologies to revolutionize the way they presented and communicated their wiring designs to clients and stakeholders.

The company invested in an AV wiring diagram software solution that offered seamless integration with AR and VR platforms. This allowed their design team to create immersive and interactive virtual representations of their wiring designs, providing a realistic and intuitive way to visualize and navigate the proposed AV systems.

During client presentations, the team leveraged AR and VR capabilities to provide a truly remarkable experience. Clients could virtually "walk through" the proposed AV setups, exploring the wiring layouts, component placements, and signal routing in a highly engaging and visually stunning manner.

Conclusion

The future of AV wiring design is poised for a transformative shift, driven by the integration of artificial intelligence (AI) and automation into AV wiring diagram software. These cutting-edge technologies promise to revolutionize the way professionals approach wiring design, offering a myriad of benefits that extend far beyond mere efficiency gains.From intelligent component selection and automatic cable routing to predictive maintenance and generative design exploration, AI and automation have the potential to streamline workflows, enhance accuracy, and unlock new realms of creativity and innovation in the AV industry.

As the demand for sophisticated AV systems continues to grow across various industries, embracing the future of AV wiring design will become increasingly crucial for professionals seeking to maintain a competitive edge. By leveraging the power of AI and automation, AV experts can elevate their craft to new heights, delivering exceptional results that not only meet but exceed the evolving needs and expectations of their clients.

However, it's important to recognize that the integration of these advanced technologies is not without its challenges. Data quality, user experience, ethical considerations, scalability, and security are all factors that must be carefully addressed to ensure a successful and responsible implementation of AI and automation in AV wiring diagram software. As the industry continues to evolve, it will be essential for software developers, AV professionals, and industry organizations to collaborate and establish best practices, guidelines, and standards that ensure the responsible and ethical use of these powerful technologies.

Ultimately, the future of AV wiring design is one of boundless potential, where the synergy between human expertise and advanced AI and automation technologies will pave the way for groundbreaking innovations and remarkable experiences. By embracing this future, AV professionals can position themselves at the forefront of a rapidly evolving industry, delivering solutions that captivate audiences, inspire creativity, and redefine the boundaries of what is possible in the world of audio-visual systems.

#best free wiring diagram software #free wiring schematic software #wire diagram program

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poeticlark · 6 months ago

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769 words, my own au i call "doll au", inspired by cyberpunk. everyone is a cyborg yah whatever. enjoy, and yes i accept questions on the au.

Part Two

-.-.-

Captain Curly’s medical file is 13 pages of technical jargon, schematics, therapy notes and several police reports. It's the longest in volume, outmatching even Swansea’s extensive age and habit of replacing livers when they fail him.

Before completing a trimonthly diagnostic on each crewmember, Anya must read through their medical records to prepare. All restricted files on the Tulpar are paper, unable to be downloaded or accessed through any cyberware. Locked away in cases and drawers for select crew.

She opens Curly's file on the desk, organises the paper's with a soft shuffling. Slides her glasses on, so the eyestrain of the contacts doesn’t overwhelm.

Her radio comforts, cello solos for reading while she drinks the Pony Express tea. Tea is a liberal interpretation of dust swept from the factory floor and stuffed into rice paper pouches that dissolve into the water, leaving behind a starchy taste. There’s only 100 packed for the whole trip, and she hates them.

Alas, the urge to drink tea while studying, self-ingrained through her schooling habits, is too strong to beat. Anya sips at her starchy dust water and tries to comprehend what a Systematic Ram Reshuffler is.

The Captain’s body is full of things, full of wires and chips. His files are full of complications from those wires and chips. She reads through the reports from his biomonitor, the watch embedded in his wrist, the bracing on his hand where he broke it in a warehouse accident. The optical enhancements he has, top market for his line of work. The maintainer attached to his heart. A diagram of his brain overflowing with neuralware, stretches of cabling stretching along the rippling tissue.

She jots down a note to monitor Curly for complications, and more stringent psychological evaluation. No wonder he’s so indebted, she thinks to herself. These implants must cost tens of thousands.

She stops in her shuffling, turns the radio down when a note rings out like a squeal. Surely, she misread it. Misunderstood.

The fourth page is an extensive report of the process of installing a Morpheus Behavioural Chip from Projekt Industries.

Something's kicking in her chest, something scared. A Morpheus.

The report is not as dramatic as maybe it should be, size twelve lettering on slightly creased paper. Perfectly normal language, probably typed out by a surgeon eager to rush off to their lunch break. Nauseatingly mundane and impassive. Totally typical of a post surgery report. She’s unsure that it’s about Curly, until she doubles and then triple checks his full name at the top of the page.

26th September, 1984: The implant was installed into the client’s frontal lobe. Surgery was 7 hours and 42 minutes. There were no complications.

28th September, 1984: The client woke up from anaesthetic and attempted to decannulate himself. The nurse on duty prevented this from happening, and he quickly regained composure.

29th September: 1984 The implant appears to have integrated with the client’s nervous system and frontal lobe without complication. No inflammation beyond standard medication. Diagnostics by a software engineer shows full functionality has been achieved.

13th October, 1984: The client will be discharged tonight, and return weekly until the end of the month for monitoring. Prescription for courses of medication sent electronically: immunosuppressants, antibiotics, antiinflammation and antiemetics will be supplied in courses

A Morpheus chip in the frontal lobe of Captain Curly. Anya leans back, spine slamming into the back of her chair as her vision seems to fizzle at the edges. Curly, in charge of The Tulpar and the wellbeing of every single person on board, has a behavioural chip. Curly is a doll.

Scolding herself for that kind of language, she lets the paper down on the desk like it stings to touch. Curly’s a person, a person with independent thoughts. Not some meat machine, and she’d be able to tell if it wasn’t him. His opticware is connected to the implant, an alert to anyone he talks to if it's active. Curly is himself, and himself is a person. A Morpheus chip doesn’t mean anything.

The cup of tea, wobbling precariously in her unsteady hand, tips onto her. It scalds, soaking into her uniform’s trousers and the pants underneath that.

“Fuck!”

She stumbles to her feet, stumbling to get out of her uniform and shoving the papers across the table. It burns, bringing angry tears to her eyes as she stumbles to the sink reserved for handwashing. At least the medical room can lock, she bitterly recalls while stripping down to her underclothes and splashing water onto her angry, red skin.

She's lost her appetite for pony express tea even more, now. Behavioural chip interfaces with all programs in functionality tests, the report read, and the dead pixel flashes at the back of her skull insistently.

#curly mouthwashing #mouthwashing curly #mouthwashing #mouthwashing game #anya mouthwashing #mouthwashing fandom #mouthwashing fanfic #captain curly

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jades-typurriter · 6 months ago

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Secure Connection

As promised: more Posie!! I wrote this one toward the end of last Spring after a couple of conversations with friends regarding the malleability of digital bodies (as well as still having Many Thoughts about the way code can give them new compulsions, after writing something about Annie and a new taur-shaped chassis for a friend's Patreon). Enjoy reading about her dealing with a corporate-mandated "hardware" update!

CW: Genital TF, this is another one that's As About Sex as it can possibly be without being about sex

Posie sat, sulking—steaming, even—in her office. It was a small side room off of the main floor of IT personnel, system engineers, and other technical employees of her corporation. Much like a central server, it was placed for easy access to the department-wide administrative assistant, and much like a server room, it was snug, windowless, and awash with the calming drone and relaxing warmth of an array of exhaust fans. Though she was free to project herself nearly anywhere on the company’s campus, this was where her consciousness was housed, and where she felt most at home. It was also the only place she could get any damn privacy, a luxury that she was deeply grateful for at present.

A newly-downloaded file weighed on the back of the Renamon’s mind. More literally, it was somewhere in the racks of drives that made up her long-term memory, to and from which mission-critical information was transferred in the course of doing business. Had somebody asked where exactly the file was stored, she would have been able to list the specific drive and the exact directory address, but she had de-prioritized the allocation of her processing resources for the download. Once again, she had received an assignment from her superiors, and once again, she was hesitant. She may even have admitted to being recalcitrant. She resented the orders.

The package of data in question was an update for her own software, a suite of new tools to allow management to offload yet more menial tasks onto her in the name of “efficiency”. Forget that she could diagnose a software issue faster than any of the engineers could even open a remote connection to the malfunctioning device. Instead of allowing her to take the reins, they saw fit to divert more of her attention to the least impressive among talents, and the one she already put to use the most often: transferring data.

This wouldn’t have been much of a problem, ordinarily. After all, Posie resided in the beating heart of the network, the nexus through which the vast majority of information was sent and received. It could be… meditative. Parsing streams of ones and zeroes, overseeing the flow of packets, redirecting traffic to equally spread the load across modems and routers so as to optimize travel time. It could even have been considered relaxing, if a worker of her caliber needed to relax. Instead of offering her a vacation (pah!), however, the update felt more like it heralded a demotion, denying her even the ability to pluck like harpstrings the miles of copper and gold that lined her facility. She was expected to deliver this data on foot.

Management justified this humiliation with practical concerns: some information, much like the old records she was often tasked to dispose of, was so confidential that it could not be sent via wireless transmission. Even hardwired connections were too fallible for the likes of next-generation schematics and financial access keys—a single compromised workstation, or compromised worker, could spell the loss of the company’s upper hand in its market. She wasn’t even going to be afforded the dignity of carrying an external hard drive to the destination. That would require the slow and tedious process of physically moving from one place to the next; this was one of the only times that she regretted the freedom of movement that was so coveted by her flesh-and-blood peers.

With no room to make exceptions for security protocol, she gripped the edge of her desk, brow furrowing, eyes squinted shut in consternation. Eventually, she huffed, rose, and turned her attention to her “physical body”, summoning up the file in much the same way that one would approach a plate of food with a pungent odor. The Renamon steeled herself and began to more closely examine its contents. She read the raw code similarly to how one might read words on a page; however, where the turning gears of the organic mind would, almost unconsciously, conjure up an image as a result of those words, her mind kicked off a series of involuntary, autonomic processes.

Her body carried out the instructions on her behalf. Once she started, she had no control until she finally reached a stopcode; it was the nature of being a program herself that code had as much of an influence on her mind and body as her own thoughts, her own will. In opening the package, she reluctantly consented to the changes that management saw fit to make to her. It was better than the eventual forced-deadline sort of update that software companies were so keen on using nowadays, and at least choosing the time and place allowed her to make herself presentable again before having to face another person.

Having parts of her code—her very body—rewritten by the update was a strange sensation, not unlike having your thoughts dictated to you by an outside force. Stranger still was that she could feel the exact delineation between her previous self and the patches of… well, the patch. She could feel it quite strongly, as a matter of fact: beneath her skirt of simulated sky-blue fur, between her legs, she could feel her mesh being edited. Stretched. Reshaped. The vectors that made up the triangles of her wireframe soul were being rewritten, mathematically transformed. A shape began to protrude from the once-flat span at the bottom of her torso, at first round and indistinct, but quickly increasing in resolution.

The Renamon struggled to process the sensations as a long, slender connector began to take shape. This often happened with changes to her body plan; inputs streamed into her mind from directions, locations, that previously never sent any signals, and the new additions seldom had their sensitivity adjusted downward for her convenience. In this case, it was highly sensitive, delivering reams of data to the base of her skull just from brushing up against her own fur, or the gentle flow of air from the computers in her office. It made sense, given that it was supposed to be a high-capacity transfer tool, but she was too busy buckling at the knees and clutching at the desk behind her so she didn’t fall flat on her rear for the thought to occur to her.

Her processors demanded more cooling, kicking into high gear as they formatted the two new storage devices that accompanied the connector, tailor-made for packing confidential data as tightly as possible. The sound of whirring fans filled the room, stirring her fur and sending shivers up and down her back; she could only hope that the rushing exhaust made enough noise to drown her out, whimpering despite herself. The new drives were larger (and more unwieldy) than the ones that were built into her chest, much to her chagrin. She was forced to adjust her stance and her gait as she found her footing again, spreading her legs wider than she was accustomed in order to give them enough room.

The spinning in her head slowly settling down, she slowly began to compose herself once again, taking stock of the new additions. They were cumbersome, to be sure, and she lamented how they jutted out from her otherwise sleek form and burdened her with less-graceful posture. It didn’t even match her fur! The software engineers that had concocted the code had at least included one small mercy: a compartment for the connector to retract into, nestled in the fur above the storage drives. No such luck for the drives themselves. She supposed she would just have to adjust to walking with delicate hardware in tow. As she went to smooth her fur over her lap again, her paw recoiled away. Some kind of… static discharge was left in the fluff. A memory leak, perhaps? The fact that such a malfunction could be caused just from having the connector brush up against her fur appalled her, deepening her frustration even more. They couldn’t even test the update for bugs before shipping it out to her. She shook out her paw and finished arranging her skirt as best she could before working up the composure to finally leave her office.

Picking up the payload for which all this fanfare had been arranged was at least a quick, easy process. She stopped into the office of the manager that had assigned her the task; she offered a businesslike nod and, knowing that she was always itching to skip niceties in the name of saving time, he offered a straightforward wave at his personal terminal. She held a paw over the computer tower and, in the time it took for electricity to arc to her fingertip with a tinny zzzrt, she had already searched his directory for the relevant test files and copied them to the newly-installed drives. Wireless transfer, yes, but only technically. The engineers had specifically asked a member of another division, whose computer network wasn’t connected to their own; it was as though she had picked a folder up from his desk and walked out with it.

Moving the file was just as uneventful. It was far from the first time that she’d navigated the sprawling corporate property, and even if it were, the maps existed just outside the orbit of her thoughts, ready to be summoned to mind at a simple impulse. What she was not expecting, however, was the technician who was waiting in the server room to which she was asked to deliver the file. While she preferred to work in the isolation of rooms that were set aside specifically for hardware, she was far from unused to being in the presence of the other people responsible for maintaining the company’s systems. That said…

“Can I help you?” The Renamon icily asked.

“Oh, I don’t need anything! I’m just here to take notes on the transfer.” Her tone was cheery; evidently, she wasn’t aware how compromising the new additions were. “The time it takes, any obvious issues. I’ll be the one checking the files against the originals, too,” she concluded, hooking a thumb over her shoulder at a monitor behind her.

“I see,” Posie replied through gritted teeth. “You have clearance to see these files, then?”

“Well, they’re just dummy data, ma’am.” At least she was respectful.

“And the proprietary hardware I’ve been… equipped with?” she forced out, keeping her synthesized voice even.

“Oh, for sure I do. I designed it!”

Oh! she seethed. So she knows pre-cise-ly the position he’s put me in.

“Well. I suppose there’s no point in delaying things, then.”

“Ready when you are!”

With tense shoulders, she turned toward the server rack, eyes darting over it, searching for where exactly she was supposed to connect to the array. After glancing over the contents of each drive, she found the one she was supposed to copy the data into—deposit would be more apt, as it was her understanding that the files would be automatically flushed from her system—and found a port that would allow her to access it. Conveniently, it was around waist height. She wondered, crossly, whether that had been an intentional design decision by this engineer as well. As she looked at it, she felt a twinge from the connector; on its own, like a Bluetooth device automatically searching for signals, it slid itself out from its fuzzy little compartment.

Her skin was abuzz, and her fur stood on end. She couldn’t quite tell if it was coming from the connector itself, or if it was the feeling of the programmer’s eyes on her If she could take a deep breath, she would have then. Without any way to stall further, or to tell the leering young woman to take her test files and store them somewhere indecent, she simply pushed forward with dropping off the damned data.

The instant the connector grazed the metal of the port, lightning shot into it, through her body, and into her head, making it swim with electrical potential. A stuttering, lagging thought made its way to the surface of her mind: they really had overtuned the sensitivity. She stifled a gasp and suppressed the urge to lay into the engineer (electrons were eager to flow out of her even without proper alignment with the contacts in the port, and didn’t she know that discharge like that could damage a piece of hardware?!), willing her body to keep pressing the stupid connector into the socket.

Even as she tried to get it over with already, something in the back of her mind compelled her to draw back a bit. If she had been restraining herself from reprimanding the engineer for risking the hardware, then she should at least do it the service of ensuring she was properly aligned, shouldn’t she? She obliged the impulse, and the motion all at once became much jerkier, less controlled. The friction of the port against her connector was enough to send her tail snapping back and forth, and she could tell that the temperature in her own server’s room had risen by a fair few degrees. Back and forth, wiggling side to side, she continued to readjust and realign herself, driven by unfamiliar code and overwhelmed by the signals pouring into her. She lost herself in the task, forgetting herself, forgetting her surroundings, until finally the technician cleared her throat.

“Ma’am,” she ventured, blushing and wide-eyed. “What, um. What are you doing? You should just need to plug it in.”

“I’m.” Her interruption had snapped the Renamon back to reality. She was mortified, tail sticking straight out and back ramrod straight. Her cheeks burned mercilessly. “I’m calibrating the connection.”

“Calibrating?”

“Did you want your files transferred with or without corrupted and incomplete data?” She snapped, hoping that her authoritative tone would head off any debate. “Assign me experimental hardware and then ask me to be reckless with it, hm? Should I be taking notes to give to our superiors?”

“I—alright, I guess you can’t be too careful,” she stammered, sheepishly pressing her legs together. “That was even something I tried to work into the design, so, c-carry on?”

“Thank you,” Posie blustered, turning back to the server rack. She did so slowly, reluctantly relishing the feeling of sliding around within the socket. She allowed herself one or two more “practice” attempts, hoping that it wouldn’t arouse too much suspicion from the engineer. Ultimately, just like before, there was no use in continuing to stall, and when she was able to bring her body to a stop, the rational part of herself was eager to be done with this entire torrid affair.

With more force, she pressed the connector inward one final time, trembling as the latch began to press against the opening. Slowly, agonizingly slowly, she continued, overwhelmed by the volume of electricity surging into her. The latch gave, compressing as it continued to slide inside, until finally it clicked into place, securing her to the array of drives and finalizing the connection.

All at once, a torrent of data poured out of her, an electron tsunami that felt like it threatened to spill out of the socket in which she was hilted. More data was transferred in the span of a few seconds than she was used to consciously processing, having cultivated such skill in delegating and compartmentalizing with background processes. Once again, the world around her was utterly drowned out; the strength fled her legs, and she clung to the steel bar that reinforced the top of the server rack, threatening to topple the entire system. Her self-control abandoned her as well and, forgetting the engineer, she cried out with an airy, wild, distinctly foxlike yelp. She screamed in surprise, gasped at the deluge of information, moaned because there was no room left in her mind for thought to do anything else.

Quickly, the disks of the server rack had finished writing the files she had carried to them, and her own drives were thoroughly purged. In another building, the radiators serving her processors shed heat at their absolute limits, and fans worked overtime to bring her back within her safe operational range. As her overworked circuitry began to chug through the backlog of sensory information, the entire experience caught up with her—including the detail that this entire shameless display had been carried out in front of that underhanded little engineer. She blinked, hard, and whipped her head to face her. For as hot as her own ears felt, the young woman’s face appeared to be glowing even brighter.

“What. Was that.”

“Um—”

“I’m used to new adjustments requiring desensitization, or even adjustment on their gain,” she growled, voice low and eerily even. “But that was a bridge too far to just have been miscalibration. Why did you design it like that?”

“Well, y-you remember how I mentioned, um, having considered an early disconnection?” Posie’s frosty glare didn’t waver, so the tech continued, answering her own rhetorical question. “That was, uh, the safeguard. Against early disconnection. I, figured it’d just be easier to make it so you wouldn’t want to unplug—”

“Do you think you have the au-thor-ity to go making changes to my mind, young lady?!”

“I-I can roll back the update if you want—”

“I think you’ve done QUITE enough!” The Renamon declared, despite herself. Perhaps it was genuine distrust, or perhaps—perhaps she truly couldn’t tell which desires were her own, at the moment. This would require careful study of her own system files.

Another small click broke the silence following her outburst, and the dongle began to retract from the server’s port and back into Posie’s body. Now free to move around, she dusted and fluffed her skirt and leaned down to look the engineer in the eye.

“I trust that you can report to your supervisor that I performed to your expectations,” she hissed. “And that there will be no need for any further discussion of your little project.” The programmer nodded, eyes even wider than before—and cheeks even redder? The Renamon scoffed, sneered, and spun, storming out the door, already allotting time in her schedule for the next time that she would be called upon for such a delivery.

Utterly unsurprisingly, she had been correct in her assessment that her superiors would take every opportunity to save their organic employees’ time at her expense. Confidential deliveries became a regular part of her routine, and though she had great disdain for being reduced to a mere courier for so much of the workday, she insisted upon completing the task to her usual, lofty standards.

Posie was as prompt as she always was, dropping everything to ferry information between privileged parties, striving to reduce latency even in more analogue forms of communication. There was the occasional complaint about how long downloads took once she had finally arrived at her location, but she was quick to remind such impatient recipients that the decision to follow this protocol came from on-high, and that even for someone who worked as quickly as her, great care for the safety of the data was a corner that simply could not be cut in the name of rushing around.

She was as meticulous about ensuring proper alignment with the port, fine-tuning her contact with the wires within, as the first time she had experimented with the new tools, and complaints about noise from the server room were easily dismissed as the usual stress of supporting her formidable computational power. After all, she was often venturing out of the range of her home network, hosting herself entirely on the recipients’ systems; was she at fault when they couldn’t handle the information throughput they asked of her?

Once the deliveries had become more routine, and none of her peers bothered to check in when they felt it was taking too long or getting too noisy, she began to find enjoyment in the solitude of her work, just as with the other, admittedly more tedious, tasks she was expected to carry out. With fewer prying eyes to judge her performance, she could make herself more comfortable while handling transfers. She didn’t have to worry that anybody would walk in on her in the debased state she often found herself in while connected directly to a data center, leaning her full weight on the poor rack, tongue lolling out and chest heaving air to keep her cool.

Then again, if somebody—especially that little technician who’d saddled her with these “upgrades”—wanted to question her efficacy, that was more than fine by her. Posie was a woman who prided herself in her work, and would seldom turn down a chance to demonstrate her first-rate hardware and unparalleled optimization. She would be more than happy to demonstrate just how quickly she could pump out information, and just how much throughput she was capable of.

Thank you for reading! If you want to see more of my work, you can check it out here and here!

#writeblr #trans author #furry fiction #renamon #tf #transformation #office lady #OL #cock growth #penis growth #indie author #mrow oc: posie #my writing #short story

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mariacallous · 3 months ago

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Elon Musk’s so-called Department of Government Efficiency (DOGE) has plans to stage a “hackathon” next week in Washington, DC. The goal is to create a single “mega API”—a bridge that lets software systems talk to one another—for accessing IRS data, sources tell WIRED. The agency is expected to partner with a third-party vendor to manage certain aspects of the data project. Palantir, a software company cofounded by billionaire and Musk associate Peter Thiel, has been brought up consistently by DOGE representatives as a possible candidate, sources tell WIRED.

Two top DOGE operatives at the IRS, Sam Corcos and Gavin Kliger, are helping to orchestrate the hackathon, sources tell WIRED. Corcos is a health-tech CEO with ties to Musk’s SpaceX. Kliger attended UC Berkeley until 2020 and worked at the AI company Databricks before joining DOGE as a special adviser to the director at the Office of Personnel Management (OPM). Corcos is also a special adviser to Treasury Secretary Scott Bessent.

Since joining Musk’s DOGE, Corcos has told IRS workers that he wants to pause all engineering work and cancel current attempts to modernize the agency’s systems, according to sources with direct knowledge who spoke with WIRED. He has also spoken about some aspects of these cuts publicly: "We've so far stopped work and cut about $1.5 billion from the modernization budget. Mostly projects that were going to continue to put us down the death spiral of complexity in our code base," Corcos told Laura Ingraham on Fox News in March.

Corcos has discussed plans for DOGE to build “one new API to rule them all,” making IRS data more easily accessible for cloud platforms, sources say. APIs, or application programming interfaces, enable different applications to exchange data, and could be used to move IRS data into the cloud. The cloud platform could become the “read center of all IRS systems,” a source with direct knowledge tells WIRED, meaning anyone with access could view and possibly manipulate all IRS data in one place.

Over the last few weeks, DOGE has requested the names of the IRS’s best engineers from agency staffers. Next week, DOGE and IRS leadership are expected to host dozens of engineers in DC so they can begin “ripping up the old systems” and building the API, an IRS engineering source tells WIRED. The goal is to have this task completed within 30 days. Sources say there have been multiple discussions about involving third-party cloud and software providers like Palantir in the implementation.

Corcos and DOGE indicated to IRS employees that they intended to first apply the API to the agency’s mainframes and then move on to every other internal system. Initiating a plan like this would likely touch all data within the IRS, including taxpayer names, addresses, social security numbers, as well as tax return and employment data. Currently, the IRS runs on dozens of disparate systems housed in on-premises data centers and in the cloud that are purposefully compartmentalized. Accessing these systems requires special permissions and workers are typically only granted access on a need-to-know basis.

A “mega API” could potentially allow someone with access to export all IRS data to the systems of their choosing, including private entities. If that person also had access to other interoperable datasets at separate government agencies, they could compare them against IRS data for their own purposes.

“Schematizing this data and understanding it would take years,” an IRS source tells WIRED. “Just even thinking through the data would take a long time, because these people have no experience, not only in government, but in the IRS or with taxes or anything else.” (“There is a lot of stuff that I don't know that I am learning now,” Corcos tells Ingraham in the Fox interview. “I know a lot about software systems, that's why I was brought in.")

These systems have all gone through a tedious approval process to ensure the security of taxpayer data. Whatever may replace them would likely still need to be properly vetted, sources tell WIRED.

"It's basically an open door controlled by Musk for all American's most sensitive information with none of the rules that normally secure that data," an IRS worker alleges to WIRED.

The data consolidation effort aligns with President Donald Trump’s executive order from March 20, which directed agencies to eliminate information silos. While the order was purportedly aimed at fighting fraud and waste, it also could threaten privacy by consolidating personal data housed on different systems into a central repository, WIRED previously reported.

In a statement provided to WIRED on Saturday, a Treasury spokesperson said the department “is pleased to have gathered a team of long-time IRS engineers who have been identified as the most talented technical personnel. Through this coalition, they will streamline IRS systems to create the most efficient service for the American taxpayer. This week the team will be participating in the IRS Roadmapping Kickoff, a seminar of various strategy sessions, as they work diligently to create efficient systems. This new leadership and direction will maximize their capabilities and serve as the tech-enabled force multiplier that the IRS has needed for decades.”

Palantir, Sam Corcos, and Gavin Kliger did not immediately respond to requests for comment.

In February, a memo was drafted to provide Kliger with access to personal taxpayer data at the IRS, The Washington Post reported. Kliger was ultimately provided read-only access to anonymized tax data, similar to what academics use for research. Weeks later, Corcos arrived, demanding detailed taxpayer and vendor information as a means of combating fraud, according to the Post.

“The IRS has some pretty legacy infrastructure. It's actually very similar to what banks have been using. It's old mainframes running COBOL and Assembly and the challenge has been, how do we migrate that to a modern system?” Corcos told Ingraham in the same Fox News interview. Corcos said he plans to continue his work at IRS for a total of six months.

DOGE has already slashed and burned modernization projects at other agencies, replacing them with smaller teams and tighter timelines. At the Social Security Administration, DOGE representatives are planning to move all of the agency’s data off of legacy programming languages like COBOL and into something like Java, WIRED reported last week.

Last Friday, DOGE suddenly placed around 50 IRS technologists on administrative leave. On Thursday, even more technologists were cut, including the director of cybersecurity architecture and implementation, deputy chief information security officer, and acting director of security risk management. IRS’s chief technology officer, Kaschit Pandya, is one of the few technology officials left at the agency, sources say.

DOGE originally expected the API project to take a year, multiple IRS sources say, but that timeline has shortened dramatically down to a few weeks. “That is not only not technically possible, that's also not a reasonable idea, that will cripple the IRS,” an IRS employee source tells WIRED. “It will also potentially endanger filing season next year, because obviously all these other systems they’re pulling people away from are important.”

(Corcos also made it clear to IRS employees that he wanted to kill the agency’s Direct File program, the IRS’s recently released free tax-filing service.)

DOGE’s focus on obtaining and moving sensitive IRS data to a central viewing platform has spooked privacy and civil liberties experts.

“It’s hard to imagine more sensitive data than the financial information the IRS holds,” Evan Greer, director of Fight for the Future, a digital civil rights organization, tells WIRED.

Palantir received the highest FedRAMP approval this past December for its entire product suite, including Palantir Federal Cloud Service (PFCS) which provides a cloud environment for federal agencies to implement the company’s software platforms, like Gotham and Foundry. FedRAMP stands for Federal Risk and Authorization Management Program and assesses cloud products for security risks before governmental use.

“We love disruption and whatever is good for America will be good for Americans and very good for Palantir,” Palantir CEO Alex Karp said in a February earnings call. “Disruption at the end of the day exposes things that aren't working. There will be ups and downs. This is a revolution, some people are going to get their heads cut off.”

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carnyreborn · 3 months ago

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Sombra finding a way to hack and corrupt Hana's mech, while she is still inside corrupting her in the process

Ask originally sent by @tokufan400

Hana is... a bit suspicious of Sombra. She knows that the girl is... a friend of Lucio's, given his Freedom Fighter past, but even then, their methods and behaviours are rather different. Sombra is a dark creature, walking in the shadows - so much so she made that her name - while Lucio shines in the sunlight, inspiring and bringing hope to others. There's a reason why she adores the Brazillian man, and she is even dating him. But Sombra's friendship with him, and even her flirting with the two of them can be a bit too much sometimes. Even if she has to admit, seeing those two gorgeous teammates did awaken something inside of her, but she'd never admit to it. She doesn't have the courage to do so.

Well, not like it matters. Hana is currently inside her mecha, training alone in Gibraltar. Most of the Overwatch crew is busy, even Lucio had left for a mission with a few others. Just her, Sombra, Tracer and Zen were left back at the base, and knowing Tracer, she'll spend the entire day inside the plane simulator of their base. Of course, that isn't an issue... or she doesn't think so. After all, she has no idea that an invisible Sombra has been watching her for the past 30 minutes or so as she flies around and shoots different targets.

Sombra is... a bit annoyed with Hana. She has always known that Lucio likes girls that are... softer. While Hana is a bit of a gremlin, their relationship is pure and wholesome... which is an issue for the Mexican hacker. After all, she has a crush on both of them and she wants to both fuck the tiny Asian whore and also be pounded from today until tonight by the Brazillian stud. A big issue... until she found a solution.

Hypnosis isn't the catch-all solution to everything many people think it is. It's complicated, technically complex and more often than not, too hard to implement. The subject needs to be in an isolated environment, slowly pushed towards their true self, and that needs to be something they at least like or want to become. Not the easiest of conditions to be fulfilled, but right now, Sombra knows she has Hana right where she wants.

She makes sure she has that small hypno background program going on and sends it towards Hana's mech. The thing is a fortress, one of the most complicated hardware and software links Sombra has ever seen... or it would've been if she hadn't purchased the schematics of its own software in the black market a few days ago. It was a piece of cake to get inside the bot and to start blasting two different things. The first of them is a song so low Hana wouldn't be able to hear it even with her guns not firing, but one that would blast her brain. And the second one is a small hypno pattern on top of her HUD, that would start with a spiral.

Hana, of course, doesn't even pay any attention to what is going on, even as she sees something... different with her HUD. Given her training inside that bot and all the effort, she puts daily, even the smallest of differences would jump up to her, but she can't pin... anything too wrong. Just like there's some sort of interference... which she chalks up to the girl who just comes around.

"Oh, Hi Sombra. Was thinking about ya, even." Hana says, moving to get off her bot, but Sombra shakes her head.

"Hi, Chica. Always nice to meet you again! No need to hop off, wanted to see you a bit in action inside that machine!" Sombra chuckles, knowing that is a normal request - she has to admit, it is impressive seeing the different members of Overwatch doing their best to work as hard as possible in their own field. Seeing Hana flying around has a beauty to it, and the gal also understands others will be interested in that.

"Eh, sure. I'm having some fun here!" The gamer grins, back towards her training and enjoying it once more. Sombra, however, isn't there just to stay silent. The hypno patterns prime the woman towards the corruption, the bot itself with so many juicy options, but for now, she wants to get the hypno ball going.

"It must feel great to be there, just shooting at things in the outside! Almost letting you get in the zone, right?" Sombra ponders, with Hana nodding.

"Sure is. It feels good and it is nice to just... let go sometimes. I can feel my mind growing empty sometimes!" The zen of a battlefield is a well-known effect, drawing attention to it would help Sombra getting Hana deep into her own trance without the gremlin noticing it.

"You have been going there for half an hour? You must be... rather close." She teases once more, intensifying the lights and the spiral just a tiny bit.

"...Y-Yeah..." Hana takes a moment to reply, her hands growing a bit sloppy at the target, she is just... really zoning out, huh?

"So much so you are almost asleep." Sombra is now inside the speakers from the mecha that were producing the low song. Her voice coming from all around Hana, who is starting to get so much under it she doesn't even notice that Sombra is doing something, just that something is wrong.

"S-Sombra, som'ting is off, I need to..." She tries to get off... but Sombra made sure to deactivate that leaver too.

"No no, no getting off, you are so tired, so into the combat feel, it would be dangerous. Stay there, look at the spiral~" With another flick of her wrist, the spiral takes full control of the HUD she is using, not letting her gaze be adverted at all. "Relax. Let the spiral and my voice control your thoughts, you can let go."

"I can... let go..." Hana mutters, she barely had any fight, but it is already gone as she snaps down towards the abyss of the hypno world.

"...Amazing! Great work, Chica! This feels fantastic, doesn't it? The feeling of nothing, of the emptiness, of letting your mind fully relax. You are loving it" Sombra grins, with full control of both the mecha and the mind of the overwatch agent. And no one to interrupt either of them.

"It feels... fantastic," Hana mutters back. "It feels fantastic to let go, to be like this." Her usually energetic voice is now far quieter, more poignant, more... mindless.

"You see Hana, for a while now, I had a crush on you and on your cute boyfriend. But the two of you are so soft, so... ugh, wholesome, and while that is nice and all... you are lacking something."

"...I'm lacking something." Hana can't fully understand the words. Just the small bits it is what her mind is listening to. One of the perks of hypnosis is not needing to fully understand Sombra's monologues.

"Yep, you sure are!" The Hacker continues. "You are missing... a kinky side Chica! You are so soft and so cuddly... but Lucio told me he wanted someone far more... active. Energetic. Open to new and kinky possibilities." Of course, Lucio had said no such thing.

"I am... missing a kinky side." She replies back, that fact being implanted deep inside her mind.

"And I'm here to help! I'm your great pal Sombra, someone who you always had a crush on!" She continues, not knowing that is actually true. Ending up on true factors helps to drive the hypnosis even more in her subconscious. "So, once the hypnosis is down, I'll try something fun with you. If you have fun with it... you'll start thinking about adding me to your relationship!" Sombra knows that Hana wouldn't want to listen to Lucio bringing someone new to their relationship, but Lucio would absolutely do whatever he could to please his girl. A perfect plan.

"I would... love to add you to our relationship~" Hana let a soft moan, her previously empty mind now full of amazing things.

"Of course, you also won't remember this specific chat, your mind will, but you won't. However, you'll remember this great state, so any time Sombra asks if I want to see the spiral movie, you'll grow excited and willing to follow her and allow her to put you back here in this state with ease." There's no way a hacker wouldn't leave a backdoor whenever exploring someone's computer or someone's mind.

"I will... do all of that." Her mind is too focused on the mental images of Sombra and Lucio between her legs, the two of them worshipping her holes with their skilled tongues and fingers.

"Great! Now, you'll slowly wake up now!" Sombra orders. "Remember all I told you in your subconscious, but never as an active memory. Even if you feel a bit weird about not remembering, you'll just think you were in a fighting trance" She makes sure that backdoor wouldn't be found and... perfect!

Hana takes a bit to wake up and as she does, she looks around the mecha, and to the clock. Damn, over 15 minutes since Sombra had gotten there!

"O-Oh, damn!" Hana mutters, blushing a bit as she does so. This is wild. "I must've been really out of it! So... wanna use here the training area?" She asks Sombra, trying to avoid anything too wild or too weird with the other gal.

"Mhm... not really... I did want to train with you, however." Sombra continues, still with her hacking gloves pointing at Hana. She messed with the mecha's software, it's time to fuck with its hardware. And with Hana herself.

"I wanted to try something with your bot, nothing too crazy, but I'm sure you'll love it." She says with Hana just moving the Bot's cockpit up and down. A common signal she has developed to 'nod' while inside her machine.

Of course, there is no preparing for what Sombra has cooked as the bot glows with Sombra's typical purple, small... tendrils come all around her. Hana knows those are usually the repair tendrils that come around to fix small issues in the middle of the battle but now... they are weird. Her more lewd prone mind, set up by Sombra, finally sees them as... the slightly phallic.

"W-What are you doing?" Hana questions, as the tendrils start rubbing against her body. Couple of them at her face, many more around her body. Given how she is laying down to operate the mecha, she doesn't have much of a range of movements to get freed up, or even just wiggle.

"Oh, nothing too grand, just checking a few things of the bot..." Sombra continues... as the tendrils create smaller tendrils. Usually, that is just for fixing but now, they aren't fixing things. No, they are ripping her own clothes off, taking all of them away from her body and leaving her naked inside her mecha.

"S-SOMBRA?! WHAT ARE YOU DOOOOOING~!!!!!!" It started as an angry and surprised exclamation but became far more powerful as the robotic tentacles - she can't deny it is what those are - start rubbing her body, making her breathing grow slower, more powerful.

"Mhm... what it looks like, I'm teasing a cute little whore~" Sombra continues, sitting down on a nearby bench, pulling out screens that are showing the cameras from inside the bot, so she can have a full show.

The tentacles are really rubbing against her entire body. From a few just keeping her arms stuck without being able to fire but more importantly making her feel even more like she has no escape to the current peril, to others who are teasing her tits and nipples, to even more who are focused on her ass and cunt, rubbing and kneading every sensitive inch of her body. "I-I'm not a-" She tries arguing but another tendril rubs against her lips... and she can't help but lick it.

"Oh, but you are~ I know the true you, who had a crush on me..." Sombra continues, as the tendrils start getting more aggressive. The one in her lips starting to push to enter... And Hana not being able to resist simply starting to suck it off. Unlike its robotic appearance may indicate, it's warm to the touch, using the feeder supplies to even add a nice salty taste to it. The others down her body get more aggressive, the ones at her nipples gaining suction cups and probing at her nipples while the ones on her crotch start to really rub at her lower holes, shooting the natural skin-safe lubricant she uses for her hands, now down at her entrances. "And the one who is loving it." Hana is, of course, too busy giving a blowjob to a tentacle as her entire body is attacked to even care.

"MMHHMM~💕💕" She is moaning, as she moves her head up and down. Shit, how is this, this good? She is adoring it all and she can barely control her own pleasure. And the moans grow even louder as from her lower holes, she feels the phallic tentacles moving away from the rubbing... before thick, long monsters probe against her holes. She doesn't understand why and how... but now? Now she couldn't give any more of a crap about it, trying to thrust back against those thick monstrous dicks... but given her position that isn't possible. But seeing her despair and her lust, there's no way that Sombra won't let Hana have what she wants... and with a flick of her wrist, the tentacles are pushed inside her pussy and asshole together.

Hana feels all of her three holes being filled, even more as the tentacle on her mouth gets deeper, with her feeling it sliding inside her throat. Thanks to it being a tentacle, not a dick, it has no issues getting there and pumping up and down, all the while her lower holes take down far more cock she has ever taken. She has used toys to have fun beforehand, but never something like this. And it all only improves even more as they start to vibrate. As soon as she feels the throbbing of those machines, little Hana Song reaches her climax, her eyes crossing up as she orgasms the first minute of the fucking, but Sombra is relentless. It's not just from one or two orgasms that will stop Sombra from having her fun, oh no, she is going to ravish Hana until she says stop... and with a robot cock filling her throat, that ain't happening too soon.

Hana gets the full fucking from her Mecha. All of her holes are abused, her mind almost broken, for over an hour more and more tentacles are forced inside of her. Two inside her throat, and three more inside each of the lower holes, not even talking about the ones used to spank and tease her. At one point Hana's entire world became just... orgasms and the pleasure Sombra is bringing her.

Sombra can't cum from just using tentacles, but she doesn't want it. She does take pleasure just... getting people there and also watching them be fucked. She grins as she sees how spent Hana is after the hour, pulling all the tentacles back, the Korean gamer passing out almost instantly, something she also predicted. Sombra opens the mecha up, setting up to walk away. The first part of her plan finally over, as she carries the naked gamer away. She knows that after this performance Hana will go crazy trying to introduce her to their relationship. A perfect plan... or so she thinks. So distracted with Hana she didn't even notice as a British operative who got bored flying wanted to check on her friends... and saw a lot of what happened. Lena has info on Sombra... something that is never a good thing.

#tokufan400 #smut #Overwatch18 #Sombra18 #Hana Song18 #D.Va18 #tw: Hypnosis #prompt

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