7 proven reasons that you must use task management tools for your manufacturing businesses. Boost your production with high profit. SIGN UP HERE and get the software. 

DAY 6274

Jalsa, Mumbai Aopr 20, 2025 Sun 11:17 pm

🪔 ,

April 21 .. birthday greetings and happiness to Ef Mousumi Biswas .. and Ef Arijit Bhattacharya from Kolkata .. 🙏🏽❤️🚩.. the wishes from the Ef family continue with warmth .. and love 🌺

The AI debate became the topic of discussion on the dining table ad there were many potent points raised - bith positive and a little indifferent ..

The young acknowledged it with reason and able argument .. some of the mid elders disagreed mildly .. and the end was kind of neutral ..

Blessed be they of the next GEN .. their minds are sorted out well in advance .. and why not .. we shall not be around till time in advance , but they and their progeny shall .. as has been the norm through generations ...

The IPL is now the greatest attraction throughout the day .. particularly on the Sunday, for the two on the day .. and there is never a debate on that ..

🤣

.. and I am most appreciative to read the comments from the Ef on the topic of the day - AI .. appreciative because some of the reactions and texts are valid and interesting to know .. the aspect expressed in all has a legitimate argument and that is most healthy ..

I am happy that we could all react to the Blog contents in the manner they have done .. my gratitude .. such a joy to get different views , valid and meaningful ..

And it is not the end of the day or the debate .. some impressions of the Gen X and some from the just passed Gen .. and some that were never ever the Gen are interesting as well :

The Printing Press (15th Century)

Fear: Scribes, monks, and elites thought it would destroy the value of knowledge, lead to mass misinformation, and eliminate jobs. Reality: It democratized knowledge, spurred the Renaissance and Reformation, and created entirely new industries—publishing, journalism, and education.

⸻

Industrial Revolution (18th–19th Century)

Fear: Machines would replace all human labor. The Luddites famously destroyed machinery in protest. Reality: Some manual labor jobs were displaced, but the economy exploded with new roles in manufacturing, logistics, engineering, and management. Overall employment and productivity soared.

⸻

Automobiles (Early 20th Century)

Fear: People feared job losses for carriage makers, stable hands, and horseshoe smiths. Cities worried about traffic, accidents, and social decay. Reality: The car industry became one of the largest employers in the world. It reshaped economies, enabled suburbia, and created new sectors like travel, road infrastructure, and auto repair.

⸻

Personal Computers (1980s)

Fear: Office workers would be replaced by machines; people worried about becoming obsolete. Reality: Computers made work faster and created entire industries: IT, software development, cybersecurity, and tech support. It transformed how we live and work.

⸻

The Internet (1990s)

Fear: It would destroy jobs in retail, publishing, and communication. Some thought it would unravel social order. Reality: E-commerce, digital marketing, remote work, and the creator economy now thrive. It connected the world and opened new opportunities.

⸻

ATMs (1970s–80s)

Fear: Bank tellers would lose their jobs en masse. Reality: ATMs handled routine tasks, but banks actually hired more tellers for customer service roles as they opened more branches thanks to reduced transaction costs.

⸻

Robotics & Automation (Factory work, 20th century–today)

Fear: Mass unemployment in factories. Reality: While some jobs shifted or ended, others evolved—robot maintenance, programming, design. Productivity gains created new jobs elsewhere.

The fear is not for losing jobs. It is the compromise of intellectual property and use without compensation. This case is slightly different.

I think AI will only make humans smarter. If we use it to our advantage.

That’s been happening for the last 10 years anyway

Not something new

You can’t control that in this day and age

YouTube & User-Generated Content (mid-2000s onward)

Initial Fear: When YouTube exploded, many in the entertainment industry panicked. The fear was that copyrighted material—music, TV clips, movies—would be shared freely without compensation. Creators and rights holders worried their content would be pirated, devalued, and that they’d lose control over distribution.

What Actually Happened: YouTube evolved to protect IP and monetize it through systems like Content ID, which allows rights holders to:

Automatically detect when their content is used

Choose to block, track, or monetize that usage

Earn revenue from ads run on videos using their IP (even when others post it)

Instead of wiping out creators or studios, it became a massive revenue stream—especially for musicians, media companies, and creators. Entire business models emerged around fair use, remixes, and reactions—with compensation built in.

Key Shift: The system went from “piracy risk” to “profit partner,” by embracing tech that recognized and enforced IP rights at scale.

This lead to higher profits and more money for owners and content btw

You just have to restructure the compensation laws and rewrite contracts

It’s only going to benefit artists in the long run ‎

Yes

They can IP it

That is the hope

It’s the spread of your content and material without you putting a penny towards it

Cannot blindly sign off everything in contracts anymore. Has to be a lot more specific.

Yes that’s for sure

“Automation hasn’t erased jobs—it’s changed where human effort goes.”

Another good one is “hard work beats talent when talent stops working hard”

Which has absolutely nothing to with AI right now but 🤣

These ladies and Gentlemen of the Ef jury are various conversational opinions on AI .. I am merely pasting them for a view and an opinion ..

And among all the brouhaha about AI .. we simply forgot the Sunday well wishers .. and so ..

my love and the length be of immense .. pardon

Amitabh Bachchan

My manager is so insufferable and all I want to do is punch him in the face. Recently he was informed there was an issue with some of the new items that were entered into our system. They were marked as training, but he wasn’t sure if they were actually training softwares/programs, so he had me look into it. I had never done anything like this before so l asked him for help, but his response was to “figure it out”. He does this a lot because he thinks telling people what they need to do is the “easy way out”. Despite that I still ask him anyway to serve as proof that I did ask him for help but he refused to be an actual mentor. Anyway I had other tasks I needed to work on so I didn’t have time to research each item one by one and since I didn’t know anyone internally that could help with this, I decided to call the manufacturers. I figured they’d be the experts since it’s literally their product. I separated the items by manufacturer and was able to get in touch with each manufacturer quickly, and before I knew it, I got my answer. My mistake was giving this information to my manager so quickly because he was surprised at how face I was done and questioned its legitimacy. I told him I got the information straight from the manufacturer so it couldn’t be wrong and that upset him. He was upset I took the “easy” way out rather than taking the time to familiarize myself with each item. He even said he already knew the answer because that’s what he did and he wanted me to do the same (doubtful). However I’m not in sales and I’ll never even get to touch or use any of the products we sell, so I have no need for this knowledge. I know this was just some side task he was probably given by his manager but he was too lazy to do it himself so he gave it to me instead. I think he was upset that he didn’t think to call manufacturers himself and instead wasted his time.

Posted by admin Rodney

.𖥔 ݁ ˖ computer specs explained - processors ˖ ݁݁ 𖥔.

shopping for a laptop (or determining what your laptop can do) can be confusing. even as a computer science major, it took me a long time to get familiar with all of it! in this series, i'm breaking down each term, number, and specification, so you can determine what's best for you.

if you have more specific questions, my askbox is open, or feel free to send me a DM. let's talk processors!

what does the processor do?

the processor (also called the CPU) is the brain of a computer. it executes all the instructions needed to run applications. your internet browser, video editing software, games, and messaging apps are all managed by your processor. the code that makes them run is sent to your processor piece by piece, and the processor executes all of them simultaneously. it's the most important part of your computer!

what do the numbers mean?

two things determine how well your processor will perform: number of cores and clock speed. these numbers are often thrown all together when talking about the processor: e.g., "AMD Ryzen 7 7730U 2.0GHz Processor". AMD is the brand, Ryzen 7 7730U is the specific model, and 2.0GHz is the clock speed.

the number of cores determines how many of those individual instructions the computer can run at once. in other words, it's how much "brain space" your processor has. more cores means your computer can run more complicated programs.

each core may have 1 or 2 threads, which divide the core into pieces to run smaller programs more efficiently. a complicated program may need multiple threads or multiple cores, but simple programs can fit onto a single thread of a single core.

the clock speed is measured in gigahertz (GHz), which you may recognize as a frequency measurement. without getting too much into how processors work, the clock speed indicates how quickly your computer can execute instructions. it has to do with how quickly electrical pulses are sent through the CPU.

most CPUs have at least 4 cores and a clock speed of around 2.0GHz. modern Intel brand processors have two types of core: higher clock speed "P-cores" (for performance), and lower clock speed "E-cores" (for efficiency). in this case, the important number of cores to look at are the P-cores; more E-cores will just mean your machine is better at multi-tasking.

rowan recommends...

...as much processor as you'll realistically use. don't spend a lot on a powerful processor if you only surf the web, and don't try to cut corners if you like to play games or use video editing software.

there are two major CPU manufacturers: Intel and AMD. i've only personally used Intel CPUs, but most people won't notice the difference between an Intel and an AMD. if you're choosing between two similarly priced processors, choose the one with a higher clock speed.

for surfing the web, word processors, and small apps like Discord or Spotify: an Intel i3/AMD Ryzen 3 is perfectly fine.

for simple programming, music production, or games like Minecraft or Stardew Valley: choose an Intel i5/AMD Ryzen 5 with a clock speed of at least 2.0GHz.

for video editing, rendering, 3D modeling, complex programming, or high-performance games: an Intel i7 or i9, or an AMD Ryzen 7, with as high of a clock speed as you can afford.

thanks for reading and good luck! again, if you have specific questions, feel free to ask a question or DM. :3

next in series: memory

What kind of work can be done on a commodore 64 or those other old computers? The tech back then was extremely limited but I keep seeing portable IBMs and such for office guys.

I asked a handful of friends for good examples, and while this isn't an exhaustive list, it should give you a taste.

I'll lean into the Commodore 64 as a baseline for what era to hone in one, let's take a look at 1982 +/-5 years.

A C64 can do home finances, spreadsheets, word processing, some math programming, and all sorts of other other basic productivity work. Games were the big thing you bought a C64 for, but we're not talking about games here -- we're talking about work. I bought one that someone used to write and maintain a local user group newsletter on both a C64C and C128D for years, printing labels and letters with their own home equipment, mailing floppies full of software around, that sorta thing.

IBM PCs eventually became capable of handling computer aided design (CAD) work, along with a bunch of other standard productivity software. The famous AutoCAD was mostly used on this platform, but it began life on S-100 based systems from the 1970s.

Spreadsheets were a really big deal for some platforms. Visicalc was the killer app that the Apple II can credit its initial success with. Many other platforms had clones of Visicalc (and eventually ports) because it was groundbreaking to do that sort of list-based mathematical work so quickly, and so error-free. I can't forget to mention Lotus 1-2-3 on the IBM PC compatibles, a staple of offices for a long time before Microsoft Office dominance.

CP/M machines like Kaypro luggables were an inexpensive way of making a "portable" productivity box, handling some of the lighter tasks mentioned above (as they had no graphics functionality).

The TRS-80 Model 100 was able to do alot of computing (mostly word processing) on nothing but a few AA batteries. They were a staple of field correspondence for newspaper journalists because they had an integrated modem. They're little slabs of computer, but they're awesomely portable, and great for writing on the go. Everyone you hear going nuts over cyberdecks gets that because of the Model 100.

Centurion minicomputers were mostly doing finances and general ledger work for oil companies out of Texas, but were used for all sorts of other comparable work. They were multi-user systems, running several terminals and atleast one printer on one central database. These were not high-performance machines, but entire offices were built around them.

Tandy, Panasonic, Sharp, and other brands of pocket computers were used for things like portable math, credit, loan, etc. calculation for car dealerships. Aircraft calculations, replacing slide rules were one other application available on cassette. These went beyond what a standard pocket calculator could do without a whole lot of extra work.

Even something like the IBM 5340 with an incredibly limited amount of RAM but it could handle tracking a general ledger, accounts receivable, inventory management, storing service orders for your company. Small bank branches uses them because they had peripherals that could handle automatic reading of the magnetic ink used on checks. Boring stuff, but important stuff.

I haven't even mentioned Digital Equipment Corporation, Data General, or a dozen other manufacturers.

I'm curious which portable IBM you were referring to initially.

All of these examples are limited by today's standards, but these were considered standard or even top of the line machines at the time. If you write software to take advantage of the hardware you have, however limited, you can do a surprising amount of work on a computer of that era.

Thailand Board of Investment

The Thailand Board of Investment (BOI) is a pivotal government agency tasked with promoting investment in Thailand, both from domestic and foreign sources. Established in 1966, the BOI plays a crucial role in driving economic growth, fostering innovation, and enhancing Thailand's competitiveness in the global market. By offering a range of incentives, streamlined services, and strategic support, the BOI attracts high-value investments across various sectors. This article provides an in-depth exploration of the BOI, covering its legal framework, incentive schemes, application process, and strategic considerations for investors.

Legal Framework and Mission of the BOI

The BOI operates under the Investment Promotion Act B.E. 2520 (1977), which grants it the authority to provide incentives and support to qualified investments. The BOI's mission is to:

Promote Investment: Attract domestic and foreign investment in targeted industries and regions.

Enhance Competitiveness: Strengthen Thailand's position as a regional hub for trade and investment.

Foster Innovation: Support research and development (R&D), technology transfer, and sustainable practices.

Facilitate Business: Streamline regulatory processes and provide comprehensive support services to investors.

The BOI is governed by a board chaired by the Prime Minister, with members from key ministries and private sector representatives, ensuring a balanced approach to investment promotion.

Key Incentives Offered by the BOI

The BOI offers a range of incentives to attract and support investments in targeted industries. These incentives are designed to reduce costs, enhance competitiveness, and facilitate business operations. Key incentives include:

1. Tax Incentives

Corporate Income Tax (CIT) Exemptions: Projects may receive CIT exemptions for up to 8 years, with possible extensions for projects in advanced technology or R&D.

Import Duty Exemptions: Exemptions on import duties for machinery, raw materials, and components used in production.

Dividend Tax Exemptions: Dividends paid from exempted profits are also exempt from taxation.

2. Non-Tax Incentives

Land Ownership: Foreign investors may own land for promoted projects, subject to BOI approval.

Work Permits and Visas: Simplified procedures for obtaining work permits and visas for foreign executives, experts, and technicians.

Repatriation of Funds: Permission to repatriate investment capital, profits, and dividends.

3. Sector-Specific Incentives

Targeted Industries: Enhanced incentives for industries such as biotechnology, digital technology, renewable energy, and advanced manufacturing.

Special Economic Zones (SEZs): Additional incentives for investments in SEZs, including infrastructure support and reduced regulatory requirements.

4. Additional Benefits

Investment Promotion Zones: Incentives for investments in designated zones, such as the Eastern Economic Corridor (EEC).

Green Initiatives: Additional benefits for projects that promote environmental sustainability and energy efficiency.

Targeted Industries and Strategic Sectors

The BOI focuses on promoting investments in industries that align with Thailand's economic development goals. Key targeted industries include:

Advanced Technology and Innovation:

Biotechnology, nanotechnology, and advanced materials.

Digital technology, including software development, data centers, and cybersecurity.

Sustainable Industries:

Renewable energy, such as solar, wind, and biomass.

Environmental management and waste-to-energy projects.

High-Value Manufacturing:

Automotive and aerospace industries.

Electronics and electrical appliances.

Services and Infrastructure:

Tourism and hospitality, including medical tourism.

Logistics and transportation, particularly in the EEC.

Agriculture and Food Processing:

High-tech agriculture and food innovation.

Halal food production and export.

Application Process for BOI Promotion

The process of applying for BOI promotion involves several steps, each requiring careful preparation and adherence to regulatory requirements. Below is a detailed breakdown:

1. Determine Eligibility

Identify the appropriate BOI category and incentives based on your business activities and investment plans.

Ensure that your project aligns with the BOI's targeted industries and strategic goals.

2. Prepare Required Documents

Business Plan: Detailed plan outlining the project's objectives, scope, and financial projections.

Financial Statements: Audited financial statements for existing companies or pro forma financials for new ventures.

Technical Specifications: Details of machinery, technology, and production processes.

Environmental Impact Assessment (EIA): For projects with potential environmental impacts.

3. Submit the Application

Submit the application through the BOI's online portal or at a BOI office.

Pay the application fee, which varies depending on the project size and complexity.

4. Review and Approval

The BOI reviews the application, including the project's feasibility, economic impact, and compliance with regulations.

Additional information or clarifications may be requested during the review process.

5. Receive BOI Promotion Certificate

If approved, the BOI issues a Promotion Certificate, detailing the incentives and conditions.

The certificate must be registered with the relevant government agencies to activate the incentives.

6. Compliance and Reporting

BOI-promoted projects are subject to periodic reporting and compliance checks.

Ensure that all conditions and requirements are met to maintain the incentives.

Strategic Considerations for Investors

To maximize the benefits of BOI promotion, investors should consider the following strategies:

Sector Alignment:

Align your investment with the BOI's targeted industries and strategic goals.

Research the specific incentives and requirements for your sector.

Comprehensive Planning:

Develop a detailed business plan that outlines the project's objectives, scope, and financial projections.

Consider the long-term impact of the investment and potential for expansion.

Legal and Regulatory Compliance:

Ensure compliance with Thai laws and regulations, including environmental and labor standards.

Seek legal advice to navigate the complexities of BOI promotion and regulatory requirements.

Partnerships and Collaboration:

Form strategic partnerships with local businesses, research institutions, and government agencies.

Leverage local expertise and networks to enhance the project's success.

Sustainability and Innovation:

Incorporate sustainable practices and innovative technologies into the project.

Explore opportunities for R&D and technology transfer to enhance competitiveness.

Recent Developments and Trends

Thailand's investment landscape is evolving, with several trends and developments shaping the BOI's strategies:

Eastern Economic Corridor (EEC):

The EEC is a flagship initiative to develop the eastern region into a hub for advanced industries and innovation.

The BOI offers enhanced incentives for investments in the EEC, including infrastructure support and streamlined regulations.

Digital Transformation:

The BOI is promoting investments in digital technology, including artificial intelligence, blockchain, and fintech.

Digital infrastructure projects, such as data centers and smart cities, are prioritized.

Sustainability and Green Initiatives:

There is growing emphasis on sustainable investments, including renewable energy, waste management, and green manufacturing.

The BOI offers additional incentives for projects that promote environmental sustainability.

Post-Pandemic Recovery:

The BOI is implementing measures to support economic recovery, including incentives for healthcare, biotechnology, and supply chain resilience.

Efforts to attract foreign investment and boost domestic industries are intensified.

Conclusion

The Thailand Board of Investment (BOI) is a vital institution for promoting investment and driving economic growth in Thailand. By offering a range of incentives, streamlined services, and strategic support, the BOI attracts high-value investments across various sectors. Understanding the BOI's legal framework, incentive schemes, and application process is essential for investors seeking to capitalize on the opportunities in Thailand. As the country continues to evolve its investment landscape, staying informed and proactive will remain key to achieving long-term success. Whether you are a domestic entrepreneur or a foreign investor, the BOI provides a robust platform for realizing your investment goals and contributing to Thailand's economic development.

MaxScheduler (Web based scheduling software for Manufacturers and Printers)

MaxScheduler is a cutting-edge Manufacturing Scheduling Software designed specifically for the needs of manufacturers and printers. Our comprehensive Manufacturing Planning Software enhances efficiency and precision in production processes, while our advanced Production Scheduling Software optimizes your workflow. For print shops, MaxScheduler offers a tailored Print Shop Scheduling Software solution that simplifies job management. Additionally, our robust Job Tracking Software ensures seamless tracking and management of every task, enhancing overall productivity.

What is artificial intelligence (AI)?

Imagine asking Siri about the weather, receiving a personalized Netflix recommendation, or unlocking your phone with facial recognition. These everyday conveniences are powered by Artificial Intelligence (AI), a transformative technology reshaping our world. This post delves into AI, exploring its definition, history, mechanisms, applications, ethical dilemmas, and future potential.

What is Artificial Intelligence? Definition: AI refers to machines or software designed to mimic human intelligence, performing tasks like learning, problem-solving, and decision-making. Unlike basic automation, AI adapts and improves through experience.

Brief History:

1950: Alan Turing proposes the Turing Test, questioning if machines can think.

1956: The Dartmouth Conference coins the term "Artificial Intelligence," sparking early optimism.

1970s–80s: "AI winters" due to unmet expectations, followed by resurgence in the 2000s with advances in computing and data availability.

21st Century: Breakthroughs in machine learning and neural networks drive AI into mainstream use.

How Does AI Work? AI systems process vast data to identify patterns and make decisions. Key components include:

Machine Learning (ML): A subset where algorithms learn from data.

Supervised Learning: Uses labeled data (e.g., spam detection).

Unsupervised Learning: Finds patterns in unlabeled data (e.g., customer segmentation).

Reinforcement Learning: Learns via trial and error (e.g., AlphaGo).

Neural Networks & Deep Learning: Inspired by the human brain, these layered algorithms excel in tasks like image recognition.

Big Data & GPUs: Massive datasets and powerful processors enable training complex models.

Types of AI

Narrow AI: Specialized in one task (e.g., Alexa, chess engines).

General AI: Hypothetical, human-like adaptability (not yet realized).

Superintelligence: A speculative future AI surpassing human intellect.

Other Classifications:

Reactive Machines: Respond to inputs without memory (e.g., IBM’s Deep Blue).

Limited Memory: Uses past data (e.g., self-driving cars).

Theory of Mind: Understands emotions (in research).

Self-Aware: Conscious AI (purely theoretical).

Applications of AI

Healthcare: Diagnosing diseases via imaging, accelerating drug discovery.

Finance: Detecting fraud, algorithmic trading, and robo-advisors.

Retail: Personalized recommendations, inventory management.

Manufacturing: Predictive maintenance using IoT sensors.

Entertainment: AI-generated music, art, and deepfake technology.

Autonomous Systems: Self-driving cars (Tesla, Waymo), delivery drones.

Ethical Considerations

Bias & Fairness: Biased training data can lead to discriminatory outcomes (e.g., facial recognition errors in darker skin tones).

Privacy: Concerns over data collection by smart devices and surveillance systems.

Job Displacement: Automation risks certain roles but may create new industries.

Accountability: Determining liability for AI errors (e.g., autonomous vehicle accidents).

The Future of AI

Integration: Smarter personal assistants, seamless human-AI collaboration.

Advancements: Improved natural language processing (e.g., ChatGPT), climate change solutions (optimizing energy grids).

Regulation: Growing need for ethical guidelines and governance frameworks.

Conclusion AI holds immense potential to revolutionize industries, enhance efficiency, and solve global challenges. However, balancing innovation with ethical stewardship is crucial. By fostering responsible development, society can harness AI’s benefits while mitigating risks.

How Small and Mid-Sized Engineering Firms Can Benefit from ERP

In today’s competitive business landscape, manufacturers and engineering companies in India are under constant pressure to improve efficiency, reduce costs, and enhance productivity.  The adoption of ERP for manufacturing companies in India has become more than just a trend—it is a necessity for survival and growth.  Manufacturing ERP software in India is specifically designed to address the unique challenges faced by the industry, offering seamless integration, automation, and data-driven decision-making capabilities.

If you are an engineering or manufacturing business looking to streamline your operations, this blog will help you understand why ERP software for engineering companies in India is essential and how choosing the best ERP for the engineering industry can revolutionize your operations.

Why ERP is Essential for Manufacturing and Engineering Companies

1.  Streamlining Operations and Enhancing Efficiency

One of the biggest challenges faced by manufacturing and engineering companies is managing various processes such as inventory, procurement, production, and distribution.  Manufacturing ERP software in India centralizes data, enabling real-time monitoring and control over every aspect of the business.  This eliminates redundant tasks, reduces manual errors, and improves efficiency.

2.  Improved Supply Chain Management

A well-integrated ERP system ensures smooth coordination with suppliers, vendors, and distributors.  With ERP for manufacturing companies in India, businesses can track raw materials, monitor supplier performance, and optimize procurement processes, reducing delays and ensuring a seamless supply chain.

3.  Enhanced Data-Driven Decision Making

With access to real-time data analytics and comprehensive reporting, ERP software for engineering companies in India empowers businesses to make informed decisions.  Managers can analyze production trends, forecast demand, and identify areas for improvement, leading to better business outcomes.

4.  Cost Reduction and Higher Profitability

Automation of processes helps in minimizing waste, reducing operational costs, and increasing profitability.  The best ERP for the engineering industry ensures resource optimization by tracking inventory levels, reducing excess stock, and eliminating inefficiencies in production planning.

5.  Compliance and Quality Control

Manufacturers must adhere to strict industry standards and regulatory requirements.  Manufacturing ERP software in India helps in maintaining compliance by providing documentation, audit trails, and quality control measures, ensuring that all products meet industry regulations.

Key Features of the Best ERP for Engineering Industry

Choosing the right ERP solution is crucial for achieving maximum benefits.  Here are some key features to look for in an ERP software for engineering companies in India:

Comprehensive Production Planning & Control – Ensures seamless coordination between different production units.

Inventory & Material Management – Tracks stock levels, raw materials, and procurement processes efficiently.

Financial Management – Integrates accounting, payroll, and financial reporting for better fiscal control.

Supply Chain Management – Enhances supplier relationships and improves procurement efficiency.

Customer Relationship Management (CRM) – Manages customer interactions, sales pipelines, and service requests.

Business Intelligence & Reporting – Provides real-time insights for strategic decision-making.

Scalability & Customization – Adapts to the growing needs of your business with modular functionalities.

Top ERP Software Providers in India

India is home to some of the top ERP software providers, offering advanced solutions for engineering and manufacturing businesses.  Companies like Shantitechnology (STERP) have emerged as leaders in providing industry-specific ERP solutions that cater to the unique requirements of manufacturing and engineering firms.

Why Choose STERP?

STERP is one of the top ERP software providers in India, offering customized ERP solutions specifically designed for the engineering and manufacturing industries.  Here is why STERP stands out:

Industry-Specific Solutions – Tailored to meet the challenges of the manufacturing and engineering sectors.

Cloud & On-Premise Options – Flexible deployment models to suit different business needs.

User-Friendly Interface – Easy to use, with intuitive dashboards and real-time analytics.

Excellent Customer Support – Dedicated support teams for implementation and ongoing assistance.

Scalable Solutions – Designed to grow with your business, ensuring long-term usability and return on investment.

How to Implement ERP for Maximum Success

Step 1:  Assess Business Needs

Understand your business requirements and identify key areas that need improvement.  Choose a solution that aligns with your industry needs.

Step 2:  Choose the Right ERP Software

Selecting the best ERP for the engineering industry involves comparing features, scalability, pricing, and vendor support.

Step 3:  Customization & Integration

Ensure that the ERP system integrates seamlessly with your existing tools and is customizable to fit your unique business processes.

Step 4:  Training & Support

Invest in training programs to ensure that your team is comfortable using the new system.  Opt for a provider that offers continuous support and upgrades.

Step 5:  Monitor & Optimize

Post-implementation, continuously monitor the system’s performance, gather feedback, and make necessary optimizations to enhance efficiency.

Future Trends in ERP for Manufacturing and Engineering

The ERP landscape is evolving rapidly, with emerging trends shaping the future of ERP for manufacturing companies in India.  Some key trends to watch include:

AI & Machine Learning Integration – Automating predictive maintenance and process optimization.

Cloud-Based ERP Solutions – Offering flexibility, remote accessibility, and cost savings.

IoT-Enabled ERP – Enhancing real-time tracking of production and inventory.

Mobile ERP – Allowing on-the-go access for better decision-making.

Blockchain for Supply Chain Management – Ensuring transparency and security in transactions.

Conclusion

Investing in ERP software for engineering companies in India is no longer an option—it is a necessity for businesses looking to stay ahead in the competitive market.  Whether you are a small manufacturer or a large-scale engineering firm, having the best ERP for the engineering industry can drive efficiency, improve decision-making, and enhance overall profitability.

With industry leaders like Shantitechnology (STERP) offering cutting-edge solutions, businesses can achieve digital transformation effortlessly.  As one of the top ERP software providers in India, STERP continues to empower manufacturing and engineering companies with tailored ERP solutions.

Are you ready to revolutionize your business with ERP?  Contact STERP today and take the first step towards seamless automation and unmatched efficiency!

Lean vs. Waterfall Business Models: Choosing the Right Approach for Your Venture

When starting or scaling a business, one of the most critical decisions you’ll make is choosing the operational approach that aligns with your goals, resources, and industry demands. Two popular frameworks that often guide entrepreneurs are the Lean and Waterfall business models. Understanding their principles, advantages, and challenges can empower you to select the model that best suits your vision and market.

What is the Lean Business Model?

The Lean business model prioritizes efficiency, adaptability, and continuous improvement. It focuses on creating value for the customer while minimizing waste. Inspired by lean manufacturing principles, particularly those pioneered by Toyota, this model has become a cornerstone of modern startups and innovation-driven enterprises.

Key Principles of the Lean Model:

Validated Learning: Experimentation and customer feedback drive product and process development.

Build-Measure-Learn Cycle: Rapid prototyping allows for iterative improvements.

Customer-Centric Approach: Emphasis on understanding and addressing customer needs.

Waste Reduction: Eliminating activities and resources that don’t add value.

Advantages of Lean:

Cost Efficiency: By focusing on essential features and avoiding overproduction, businesses conserve resources.

Flexibility: Quick pivots are possible when market demands or customer preferences shift.

Speed to Market: Minimal Viable Products (MVPs) enable businesses to launch quickly and refine over time.

Challenges of Lean:

High Uncertainty: Iterative processes may result in unpredictability.

Resource Intensity: Constant feedback loops and adjustments require dedicated time and effort.

Scalability Issues: Lean is ideal for early-stage businesses but may need adaptation for large-scale operations.

What is the Waterfall Business Model?

The Waterfall business model, rooted in traditional project management, follows a linear and sequential approach. This model is structured around defined stages, where each phase must be completed before moving to the next. While it originated in industries like construction and software development, it’s also applicable to businesses requiring meticulous planning and execution.

Key Principles of the Waterfall Model:

Sequential Progression: Projects move from concept to completion in defined steps.

Detailed Documentation: Comprehensive plans, budgets, and timelines are created upfront.

Defined Deliverables: Clear milestones ensure all tasks are completed in order.

Stability: A fixed plan minimizes changes during the process.

Advantages of Waterfall:

Predictability: Clear timelines and budgets enhance planning and stakeholder confidence.

Quality Assurance: Extensive documentation ensures thorough testing and evaluation.

Ease of Implementation: Ideal for projects with well-defined requirements.

Challenges of Waterfall:

Rigidity: Limited flexibility to adapt to changing market conditions.

Delayed Feedback: Customer input often comes late, increasing the risk of misalignment.

Time-Intensive: Sequential phases may lead to longer development cycles.

How to Choose Between Lean and Waterfall

The choice between Lean and Waterfall depends on your business’s nature, goals, and industry.

Lean is Ideal For:

Startups and innovative ventures with evolving market demands.

Projects where customer feedback is essential.

Teams prioritizing speed and adaptability.

Waterfall is Ideal For:

Established businesses with fixed goals and budgets.

Industries like construction, healthcare, or manufacturing, where precision is critical.

Long-term projects requiring robust planning.

Conclusion

Both the Lean and Waterfall business models offer unique advantages and come with their own set of challenges. While the Lean model fosters innovation and flexibility, the Waterfall approach ensures stability and predictability. Entrepreneurs should carefully evaluate their project’s scope, resources, and objectives before committing to a framework. By aligning your operational strategy with your business’s needs, you set the stage for sustainable growth and success.

Resolution Independence, Zoom, Fractional Scaling, Retina Displays, High-DPI: A Minefield

I already explained how CPU dispatch is a minefield: It doesn't cause intermittent bugs. It often doesn't even cause crashes. Badly implemented CPU dispatch means you build something on your machine that runs on your machine, but doesn't perform the dispatch correctly, so it crashes on somebody else's machine, or something build on a worse machine still runs fine on a better machine, but not as well as it could. Some of the bugs only manifest with a different combination of compiler, build system, ABI, and microarchitecture. CPU dispatch is a minefield because it's easy to get wrong in non-obvious ways.

I recently played an old game on Windows 11, with a high-DPI 2560x1600 (WQXGA) monitor. Text was too small to read comfortably read, and the manufacturer had set the zoom level to 150% by default. When I launched the game, it started in fullscreen mode, at 2560x1660, which Windows somehow managed to zoom up to 3840x2400. The window was centered, with all the UI elements hidden behind the edges of the screen. When I switched from fullscreen to windowed, the window still covered the whole desktop and the task bar. I quit the game and switched to another. That game let me choose the resolution before launch. At first I tried 2560x1660, but nothing worked right. Then I started it again, at 1920x1080. It didn't look quite right, and I couldn't understand what was going on. Windows has scaled the game up to 2880x1620, which looked almost correct. At this point I realised what was happening, and I set the zoom to 100%. Both games displayed normally.

The first game was an old pixel art platformer from the early 2000s, with software rendering. The second is a strategy game built with OpenGL around 2015, with high-resolution textures based on vector art, and with a UI that works equally well on an iPad and on a PC.

It was hard to read things on that monitor, so I set the font scaling to 150%, but somehow that made things harder to read. Some applications did not honour the font size defaults, and others did, and still others had tiny UI elements with big letters that were spilling out.

Next, I tried to run a game on Ubuntu, with Sway (based on wayland) as the desktop environment. It's a different machine, a 15.6 inch 1920x1080 laptop with an external 1920x1080 23 inch monitor attached. I zoomed the internal display of the laptop by 150% in order to have windows appear equally sized on both monitors.

What is happening on Windows 11 seems to be that even OpenGL games that don't think in terms of pixels, but in terms of floating point coordinates that go from -1 to +1 in both the x and y dimension, (so 0.1 screen units are different sizes in different dimensions) are treated the same as software rendering games that give a buffer of software-rendered pixels to the operating system/graphics environment. Making an already resolution-independent window bigger feels pointless.

What I would want to happen by default, especially in the case of the software-rendered game, is for the operating system to just tell my game that the desktop is not sized 2560x1600, but 1706x1066 (or just 1600x1000), and to then scale that window up. If the window is scaled up, mouse position coordinates should be automatically scaled down from real pixels to software pixels, unless the mouse cursor is captured: If I am playing a DOOM clone or any first-person game, I do not want relative mouse sensitivity to decrease when I am playing on a 4K monitor or when I am maximising the window (if playing in windowed mode). If I have a retina/zoomed display attached, and a standard definition/unzoomed display, and there is a window overlapping both screens, then only the part of a window that is on the zoomed display should be zoomed in.

What I would want to happen with a "resolution-independent" game is this: The game queries the size of the monitor with a special resolution-independent query function. There is no way to "just make it backward compatible". This is a new thing and needs new API. The query returns

Size of all desktops in hardware pixels

Size of all screens in real-world centimetres

Preferred standard text size in pt/cm (real world) or pixels

Zoom factor (in percent) of all desktops

Which screens are touch or multi-touch screens

Is dark mode enabled?

Which desktop is "currently active"

The "preferred" desktop to open the window

This information would allow an application to create a window that is the appropriate size, and scale all text and UI elements to the appropriate size. We can't assume that a certain size in pixels is big enough for the user to comfortably hit a button.

Even this information might not be enough. What should be the behaviour if a windowed OpenGL application is dragged between a 4K monitor at 200% zoom, and a 640x480 CRT? Should the OS scale the window down the same way it currently scales windows up when they aren't "retina aware"?

I don't really know. All I do know is that Windows, Mac OS, and different wayland compositors all handle high-DPI zoom/retina differently, in a way that breaks sometimes, in some environments. But it looks fine if you don't have scaling set. There are ways to tell the windowing system "I know what I am doing" if you want to disable scaling, but these are easy to abuse. There's a cargo cult of just setting "NSHighResolutionCapable" or "HIGHDPIAWARE" without understanding why and why not. Win32 provides all the information you need, with a very complex API. Wayland has a very different approach. SDL is aware of the issue.

I really hope SDL3 will make this work. If you get this wrong, you'll only realise when somebody on a different operating system with a different monitor tries to get your game to fit on the screen by fiddling with the registry, and it goes from not fitting on the monitor to text being too small read.

Mastering Woodworking with a CNC Router Machine: Unlocking Precision and Efficiency 

The CNC router machine for wood has emerged as an indispensable tool for modern woodworking. Whether crafting intricate designs or scaling up production, this advanced technology brings precision, speed, and creativity to the forefront. Among its many variations, the 5x10 CNC router stands out for its large working area and robust functionality. This article delves into the transformative impact of CNC router machines on woodworking and why they are a must-have in today’s workshops. 

What is a CNC Router Machine for Wood? 

A CNC (Computer Numerical Control) router machine for wood is a sophisticated device that automates cutting, engraving, and carving processes. By using computer-aided designs (CAD), it translates digital plans into precise physical creations. This machine eliminates the challenges of manual craftsmanship, ensuring flawless results even for the most complex patterns. 

Key Benefits: 

Unmatched Accuracy: Create intricate details with pinpoint precision. 

Time-Saving: Reduce production times significantly without compromising quality. 

Versatility: Handle diverse projects, from furniture making to decorative carvings. 

Consistency: Deliver identical results across multiple pieces, perfect for bulk production. 

Exploring the 5x10 CNC Router 

The 5x10 CNC router is a preferred choice for professionals who handle large-scale projects or work with oversized wooden sheets. Its generous 5-foot by 10-foot workspace allows for seamless execution of expansive designs, such as furniture panels, doors, and signage. 

Features of the 5x10 CNC Router: 

Ample Work Area: Ideal for cutting and engraving large materials without the need for piecing. 

Precision Mechanics: Designed to maintain accuracy over extended working hours. 

Tool Flexibility: Compatible with various attachments for added functionality, such as automated tool changers or multiple spindles. 

This model is particularly useful in industries where size and detail matter, such as interior design and furniture manufacturing. 

Applications of CNC Router Machines in Woodworking 

CNC router machines have diverse applications across various woodworking domains, including: 

Furniture Production: Create tables, chairs, cabinets, and other custom pieces with intricate designs. 

Interior Décor: Produce unique wooden wall panels, decorative moldings, and ceiling details. 

Architectural Designs: Craft custom doors, frames, and staircases with precision. 

Artisanal Creations: Design engraved artwork, personalized gifts, and one-of-a-kind decorative items. 

Sign Making: Build durable and aesthetically pleasing wooden signs with precision engravings. 

Why Choose a CNC Router Machine for Wood? 

Ease of Use: With user-friendly software and automated processes, CNC routers make complex projects manageable. 

Material Optimization: Reduce waste with precise cutting and carving. 

Scalable Production: Adaptable for one-off creations or large-scale manufacturing. 

Cost Efficiency: While an initial investment is required, long-term savings are achieved through reduced material waste and increased productivity. 

Conclusion 

The CNC router machine for wood is a technological marvel that combines precision, versatility, and efficiency to revolutionize woodworking. Its ability to automate complex tasks while maintaining artistic integrity makes it an invaluable asset for both seasoned professionals and hobbyists. The 5x10 CNC router, with its expansive workspace, is especially suited for tackling large and detailed projects. Whether you aim to craft fine furniture or intricate designs, investing in a CNC router ensures that your woodworking ventures achieve excellence with every cut and carve. 

Can I Start a Soap Packaging Business from Home in Canada?

Starting a soap packaging business from home in Canada is not only feasible but also a potentially lucrative venture. With the rise in the popularity of artisanal and small-batch soaps, the demand for unique, high-quality packaging is growing. If you're considering diving into this industry, here's a comprehensive guide to help you navigate the process.

1. Understanding the Market

Before launching your soap packaging business, it's crucial to research the market. Identify the types of soap products you want to cater to—whether it's handmade artisanal soaps, organic soaps, or luxury bath products. Understand the packaging needs of these different types of soaps and the preferences of your target customers. This will help you tailor your offerings and stand out in a competitive market.

2. Legal and Regulatory Requirements

Starting a home-based business in Canada requires adherence to several legal and regulatory standards. Here are some key steps:

Business Registration: Register your business name with your provincial or territorial government. You may also need to register for a GST/HST number if your revenue exceeds the threshold for small suppliers.

Home-Based Business Regulations: Check local zoning laws and homeowners' association rules to ensure you can legally operate a business from your home.

Health and Safety Compliance: Ensure that your packaging materials comply with Canadian regulations for health and safety. For instance, if you plan to use materials that come into direct contact with soap, ensure they are safe and non-toxic.

3. Setting Up Your Home Workspace

Creating an efficient workspace is crucial for a successful packaging business. Designate a specific area in your home for packaging activities. This space should be clean, organized, and suitable for the tasks you'll perform, such as cutting, folding, and assembling packaging materials.

Invest in essential tools and equipment like cutting machines, label printers, and sealing devices. Ensure your workspace adheres to health and safety standards to prevent contamination and ensure product quality.

4. Sourcing Packaging Materials

The quality of your packaging materials is critical. Source high-quality, eco-friendly materials to appeal to environmentally-conscious customers. Consider various options like biodegradable wrappers, recyclable boxes, and attractive labels. Establish relationships with reliable suppliers to ensure you get the best materials at competitive prices.

5. Developing Your Brand

Branding is key to differentiating your packaging business from competitors. Develop a unique brand identity that reflects the quality and style of your packaging. Create a memorable logo, design eye-catching packaging, and build a cohesive brand image that resonates with your target market.

6. Marketing and Sales

Effective marketing strategies are essential for attracting clients to your packaging business. Leverage digital marketing platforms such as social media, email campaigns, and a professional website to showcase your packaging designs. Participate in local trade shows, craft fairs, and networking events to connect with potential clients in the soap industry.

Offer samples to soap manufacturers and retailers to demonstrate the quality and appeal of your packaging. Building strong relationships with your clients can lead to repeat business and referrals.

7. Financial Management

Proper financial management is crucial for the sustainability of your business. Keep track of all expenses, including materials, equipment, and marketing costs. Set competitive prices for your packaging solutions while ensuring they cover costs and provide a profit margin. Consider using accounting software or hiring a financial advisor to manage your finances effectively.

8. Scaling Your Business

As your business grows, you may consider scaling up operations. This could involve expanding your product line, investing in advanced packaging machinery, or hiring additional staff. Continuously assess market trends and customer feedback to adapt and improve your offerings.

Conclusion

Starting a soap packaging business from home in Canada is a viable and rewarding opportunity for entrepreneurs with a passion for design and a keen eye for detail. By understanding the market, adhering to regulations, and focusing on quality and branding, you can build a successful business that meets the needs of soap makers and appeals to consumers. With careful planning and strategic execution, your home-based packaging business can thrive in the dynamic Canadian market.

Bookkeeping in India by MASLLP: Streamlining Your Financial Processes

Bookkeeping is a crucial aspect of any business, ensuring that financial records are accurate and up to date. In India, businesses of all sizes are increasingly recognizing the importance of professional bookkeeping services. MASLLP, a leading firm in the financial sector, offers comprehensive bookkeeping services tailored to meet the unique needs of businesses in India.

Why Bookkeeping Matters for Your Business Effective bookkeeping is the foundation of good financial management. It involves recording daily financial transactions, such as sales, purchases, payments, and receipts. Accurate bookkeeping helps businesses:

*Monitor Financial Health: By maintaining organized records, businesses can track income and expenses to assess their financial performance. *Ensure Compliance: Staying compliant with Indian tax laws is crucial. Proper bookkeeping ensures that businesses meet legal requirements and avoid penalties. *Facilitate Decision-Making: Well-maintained financial records help business owners make informed decisions about expansion, investment, and other key areas. *Prepare for Audits: Bookkeeping simplifies the auditing process, ensuring all financial documents are readily available and accurate.

Challenges of Bookkeeping in India Bookkeeping can be time-consuming and complex, especially for small and medium-sized enterprises (SMEs) in India. Some common challenges include:

*Regulatory Compliance: Businesses must adhere to constantly changing tax regulations, including GST and income tax laws. *Managing Multiple Transactions: For businesses with high volumes of daily transactions, keeping track of every detail can be overwhelming. *Handling Multiple Currencies: Many businesses in India deal with international clients, making currency conversion and documentation more complicated.

Why Choose MASLLP for Bookkeeping in India MASLLP understands the specific challenges businesses face in maintaining accurate financial records. With years of expertise in accounting and bookkeeping, MASLLP offers solutions that are both efficient and cost-effective.

Expertise in Indian Regulations MASLLP’s team is well-versed in Indian tax laws and accounting standards. They ensure that your business complies with all regulatory requirements, including GST filings, tax payments, and financial reporting.

Tailored Services for All Industries No matter your industry or the size of your business, MASLLP provides personalized bookkeeping services to meet your specific needs. Whether you run a manufacturing firm, a tech startup, or a retail business, MASLLP can help.

Use of Cutting-Edge Technology MASLLP utilizes the latest accounting software and tools to streamline the bookkeeping process. This technology minimizes errors and maximizes efficiency, giving you more time to focus on growing your business.

Comprehensive Financial Reporting MASLLP delivers detailed financial reports that give you a clear picture of your business’s financial health. These reports can be customized to provide insights into key areas such as profitability, cash flow, and tax obligations.

The Benefits of Outsourcing Bookkeeping to MASLLP Outsourcing bookkeeping to MASLLP offers several advantages:

*Cost Savings: Hiring a full-time in-house bookkeeper can be expensive. Outsourcing allows you to save on salary, benefits, and training costs. *Increased Accuracy: With a team of experts handling your books, the chances of errors are minimized. *Focus on Core Activities: By outsourcing bookkeeping, you can focus on your core business activities without worrying about managing financial records. *Timely Services: MASLLP ensures that all bookkeeping tasks are completed on time, from tax filings to financial reports.

Conclusion Bookkeeping in India is essential for maintaining a healthy business. With MASLLP’s expert services, you can rest assured that your financial records are accurate, up to date, and fully compliant with Indian laws. By outsourcing your bookkeeping needs to MASLLP, you’ll not only save time and money but also gain valuable insights into your business’s financial health. Contact MASLLP today to learn more about how our bookkeeping services can help your business thrive.

Factory Management Software (F-VAPP) for Valves Maintenance & Manufacturing Factories and Workshops. 🖥 ------ Revolutionize your valve production and maintenance with F-VAPP—a comprehensive factory management software designed by industry experts who understand the specific needs of the valves manufacturing world. F-VAPP is not just a tool, it's a fully integrated solution that enhances every aspect of your factory’s operations. 📈 ------ Hosted securely on your internal server, F-VAPP provides role-based access for every department, ensuring seamless workflows. It’s more than just software—it’s a complete management system that knows how to prioritize and automate daily operations for each machine and section. F-VAPP deeply understands the intricate processes of valve manufacturing and maintenance, making sure every task is executed efficiently with priorities clearly in place. ---- Why F-VAPP? ---- 1- Tailor-made for the valves industry, considering every detail in production and maintenance. 2- Automated daily operations for machines and departments, prioritizing workflows for maximum efficiency. 3- Real-time production line monitoring and machine load management to optimize operations. 4- Full control over inventory management and cost automation for smart financial planning. 5- User-friendly yet powerful interface that’s simple to navigate and efficient for everyday use. 6- Comprehensive reporting tools for actionable insights and informed decision-making. 7- Streamlined processes through custom roles and permissions, helping you build a clear organizational chart and strong operational workflows. 8- Enhanced collaboration between departments, improving overall productivity and quality management. ---- With F-VAPP, your factory’s operations aren’t just managed—they’re optimized. From inventory control to production management, every function is fine-tuned for efficiency and performance. ---- Key Benefits: ---- 1- Boost productivity by ensuring smooth, prioritized workflows for machines and workers. 2- Gain real-time insights into machine performance, production schedules, and factory output. 3- Automate complex processes like costing, pricing, and inventory management. 4- Seamlessly integrate departments, improving quality control and production planning. 5- Build the perfect organizational structure with clear roles and responsibilities. 6- Generate detailed reports to guide smarter business decisions. ---- F-VAPP goes beyond software. It’s a full-scale factory management system built to meet the specific needs of the valves manufacturing and maintenance industry. Take your operations to the next level with a system designed by professionals, for professionals. 🛠

Is Mediatek Helio G99 Good For Gaming? Lets Go To Details

Mediatek Helio G99 processor

The DC-1 is the first tablet with a 10.5″ LivePaper Display in the world that, when its LED backlight is turned all the way to amber, can operate without emitting any blue light at all. You can use this innovative display for an extended period of time because it functions at a super-smooth 60 frames per second, is easier on the eyes, and doesn’t flicker or glare outside.

Apart from the powerful, eight-core MediaTek Helio G99 SoC, the DC-1 is equipped with a large 8000mAh battery, fast Wi-Fi 6, Bluetooth 5.0 wireless connectivity, 8GB of RAM, and 128GB of storage. Even better, a USB 3.1 Type-C to Ethernet converter can be used to Ethernet-tether it.

MediaTek Helio G99 6nm

Outstanding 4G gaming smartphones at 6nm with amazing power efficiency

The next generation of 4G gaming smartphones is introduced by the MediaTek Helio G99. This  processor, which is based on the incredibly effective TSMC N6 (6nm-class) semiconductor manufacturing process, allows for all-day gaming, large cameras, quick displays, seamless streaming, and dependable international networking. Partners can modify the MediaTek Helio G99 platform to fit particular needs for their markets or devices.

Mediatek Helio G99 phones

The TSMC N6 (6nm-class) chip production process, which we used to enhance the Helio 4G series, allows the G99 to be incredibly power efficient and opens up new possibilities for device makers to produce gaming smartphones that last longer than before.

Mediatek Helio G99 ghz

Fast-moving 120 Hz screens with intelligent display synchronisation

Without the need for additional DSC hardware, device manufacturers may produce gaming smartphones that are lightweight and thin with Full HD+ 120Hz screens that are sharp and clear. Even 4G smartphones are now expected to have 120Hz displays, which offer an incredibly smooth everyday experience with noticeably smoother webpage browsing and app animations.

Through dynamic refresh rate adjustments, MediaTek Intelligent Display Sync technology increases the power economy of these rapid screens by only enabling greater speeds when they are most needed.

108 Megapixel Primary Camera

Large 108MP cameras are available for device makers to employ, enabling users to take the highest detailed pictures. When compared to other MediaTek Helio series chipsets, photographic results are better thanks to dimensity-class picture quality technology. Highly detailed bokeh captures in dual selfie and multi-camera setups are possible with twin cameras up to 16MP with ZSL.

Mediatek Helio G99 octa-core

With two powerful Arm Cortex-A76 processors that can reach 2.2GHz in frequency, the MediaTek Helio G99 is equipped with an octa-core  CPU and a powerful Arm Mali G57-class GPU. Accelerated data access using fast UFS 2.2-class storage and high speed LPDDR4X memory up to 2,133MHz maximises performance in games, apps, and daily tasks.

Gaming technology powered by MediaTek HyperEngine 2.0 Lite

2.0 Resource Management Engine

Longer-lasting, more fluid gameplay is ensured by an intelligent resource management engine.

 CPU, GPU, and RAM are intelligently and dynamically managed based on active power, thermal, and gameplay measures.

improved performance in difficult scenarios, high-stress games, and game engines that load slowly

High FPS power savings prolong battery life without compromising user experience by combining hardware and software improvements to lower power consumption during high FPS gaming situations.

2.0 Networking Engine

To make sure you’re always connected, the networking engine provides more dependable connectivity and quicker reaction times.

Call and Data Concurrency enables users to postpone conversations while playing games without the data connection failing, and WiFi antenna shifting modifies the signal between antennas to maximise throughput and minimise latency.

Two 4G VoLTE in tandem

For optimal power efficiency, a fast Cat-13 4G LTE modem is built inside the chip. Supported are global bands and IMS services; additionally, cutting-edge features like 4×4 MIMO and 256QAM offer dependable connectivity even in densely populated locations. While VoLTE and ViLTE services offer great call and live video experiences with faster call setup and substantially better quality than conventional calling, essential dual 4G SIM offers a seamless experience with fast data services from both connections.

Mediatek Helio G99 Benchmark

AnTuTu Benchmark

Overall Score: Around 350,000 to 400,000

 CPU Score: Around 100,000 to 120,000

GPU Score: Around 90,000 to 110,000

Geekbench 5

Single-Core Score: Approximately 500 to 600

Multi-Core Score: Approximately 1500 to 1700

3DMark (Sling Shot Extreme)

Score: Around 1800 to 2200

Mediatek Helio G99 price

Since manufacturers buy the MediaTek Helio G99, its mid-range chipset price is rarely listed. However, cellphones and devices using this chipset can give us an indication of its pricing.

Helio G99 Device Price Range

MediaTek Helio G99 smartphones are inexpensive to mid-range. These gadgets’ estimated prices:

The Helio G99 can be found in $150–200 smartphones. Mid-Range Smartphones: $200–$300 models with this chipset have more features.

Device Examples

Around $250 for Infinix Note 12 Pro. The Tecno Camon 19 Pro costs around $230.

Prices vary by model, RAM and storage configurations, features, regional pricing, and store pricing strategies.

Conclusion

Despite the MediaTek Helio G99 chipset’s price being unknown, devices using it cost $150 to $300. This line matches its mid-level mobile device affordability.

MediaTek Helio G99 Specs

 Processor

 Processor

2x Arm Cortex-A76 up to 2.2GHz

6x Arm Cortex-A55 up to 2.0GHz

Cores

Octa (8)

 CPU Bit

64-bit

Heterogeneous Multi-Processing

Yes

Memory and Storage

Memory Type

LPDDR4X

Max Memory Frequency

4266Mbps

Storage Type

UFS 2.2

Connectivity

Cellular Technologies

4G Carrier Aggregation (CA), CDMA2000 1x/EVDO Rev. A (SRLTE), 4G FDD / TDD, HSPA +

Specific Functions

4X4 MIMO, 2CC CA, 256QAM, TAS 2.0, HPUE, IMS (VoLTE\ViLTE\WoWi-Fi), eMBMS, Dual 4G VoLTE (DSDS), Band 71

LTE Category

Cat-13 DL

GNSS

GPS / QZSS L1+ L5 / Galileo E1 + E5a / BeiDou B1C + B2a / NAVIC

Wi-Fi

Wi-Fi 5 (a/b/g/n/ac)

Bluetooth Version

5.2

Camera

Max Camera Resolution

108MP

16MP + 16MP

Capture FPS

32MP @ 30fps ZSL

16MP + 16MP @ 30fps ZSL

Camera Features

3X ISP;  AI Face Detection; HW depth engine; AINR; Single-Cam/Dual-Cam Bokeh; Hardware Warping Engine (EIS); Rolling Shutter Compensation (RSC) engine; MEMA 3DNR; Multi-Frame Noise reduction;

Display

Max Display Resolution

2520 x 1080

Max Refresh Rate

120Hz

Graphics & Video

GPU Type

Arm Mali-G57 MC2

Video Encoding

H.264, H.265 / HEVC

Video Encoding FPS

2K 30fps, FHD 60fps, HD 120fps

Video Playback

H.264, H.265 / HEVC, VP-9

Video Playback FPS

2K 30fps, FHD 60fps, HD 120fps

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