Mastering the Future of IT Careers

The IT industry is rapidly expanding, offering vast career opportunities. To excel, gaining the right skills and certifications is crucial. Network Engineer Training, Cloud Network Engineer Certification, and Advanced IT Training are essential for mastering the latest technologies and practical skills. This guide highlights how such training prepares you for roles in network security, systems engineering, and more, ensuring you thrive in today’s dynamic IT sector.

Advanced IT Training: Elevate Your Career

 Advanced IT Training is crucial for staying ahead of industry trends. These programs are designed to enhance your technical expertise and provide in-depth knowledge of the latest developments in IT infrastructure, network management, and cybersecurity. From Network Infrastructure Training to Mastering IT Sector Skills Development Advanced training will help you become proficient in managing complex systems.

Comprehensive Network Engineer Training

Network Engineer Training is the foundation for those aspiring to build and manage secure, efficient networks. This training covers essential skills like routing, switching, and troubleshooting network issues. You’ll gain hands-on experience with real-world scenarios, making you a valuable asset in any IT environment. Specialized training, such as  NOC Engineer Training, focuses on monitoring network performance and resolving issues quickly, ensuring you can maintain high network availability.

Network Security Engineer Training: Protecting Critical Systems

With the rise in cyberattacks, Network Security Engineer Training is crucial for protecting network infrastructure. This specialized training teaches you to design, implement, and manage security protocols to safeguard data. Practical IT Skills Training provides the hands-on experience needed to effectively address cybersecurity threats.

Cloud Network Engineer Certification: Preparing for the Future of IT

Cloud computing is transforming the way businesses operate, and Cloud Network Engineer Certification positions you at the forefront of this shift. In this program, you’ll learn to design, deploy, and manage network systems within cloud environments like AWS, Azure, and Google Cloud. This certification not only enhances your knowledge of cloud technologies but also makes you a sought-after candidate in the IT job market.

Hands-On IT Training and Real-World IT Projects

Hands-On IT Training and Real-World IT Projects are crucial for skill development. These programs offer practical experience by simulating job challenges. Systems Engineer Training, for instance, includes working on real systems to build competence in managing and troubleshooting IT infrastructure.

IT Job Training with Placement: Launch Your IT Career

IT Job Training with Placement programs bridge the gap between education and employment, focusing on IT Sector Skills Development. These courses often partner with top companies to place graduates in high-demand roles in networking, security, or cloud engineering.

Industry-Relevant IT Courses: Stay Current with the Latest Technologies

Staying updated with Industry-Relevant IT Courses is crucial for success. Latest IT Technologies Training and Network Infrastructure Training keep your skills current. Continuous learning in automation, AI, and cloud computing provides a competitive edge and prepares you for future advancements.

NOC Engineer Training: Critical for Network Operations

 NOC Engineer Training is vital for maintaining smooth network operations. It provides hands-on experience with monitoring tools and network management systems, preparing you to ensure uptime, resolve outages, and support mission-critical services in IT departments.

Building a Future in IT with Systems Engineer Training

Systems Engineer Training provides the skills necessary to design and manage large-scale IT systems. This training covers a wide range of technologies, including servers, storage, and virtualization. Through Hands-on IT Training, you’ll learn how to manage both hardware and software, ensuring that IT systems are efficient, scalable, and secure.

Conclusion

In a rapidly evolving industry, mastering the latest IT skills is essential for career success. Whether you’re aiming for a role as a network engineer, cloud specialist, or systems manager, Advanced IT Training offers the knowledge and experience needed to excel. Through a combination of hands-on learning, real-world projects, and industry-relevant courses, you’ll gain the expertise to thrive in the IT sector and secure your future in this exciting field.

Assigning the MILGRAM characters STEM majors:

01 Haruka: Evolutionary biology I think between the taxidermy in his MV and the tree drawing which you could look at as a Tree of Life, evolutionary bio could fit him. There's probably more biological life sciences fields out there but this is the first one that came to mind.

02 Yuno: Psychology I'd initially thought biology or human biology for Yuno but it might be too expectant for a person of her demographic that she'd dislike that. Maybe to figure out why she feels so cold she'd go into psychology in order to understand and fix herself on her own. Also, she could use her personal experiences of having to entertain whoever she's being solicited by to unravel their psychology.

03 Fuuta: Computer Science with a concentration in cybersecurity and minor in game development Let's see... Insecure, chronically online sneakerhead who has knowledge on doxxing. This guy screams computer science, from the clothes to his attitude I wouldn't be surprised to find him in one of my classes tbh. Since he yapped to Es about how easy it was to doxx someone and, the fact that he's an internet vigilante, he's probably cautious on protecting his online privacy + knowledgeable on how information is found online leads us to cybersecurity. And since Bring It On MV features him seeing himself as a knight class player in a videogame, he'd probably study game development as well.

04 Muu: Social psychology (with a minor in public policy) Queen bee.

05 Shidou: Biomedical Engineering (+ premed) -> went into med school after undergrad

06 Mahiru: Interior Architecture (and a minor in industrial design)

07 Kazui: Applied Mathematics -> data science skills got him into the NPA

08 Amane: Theological Anthropology

09 Mikoto: Computer Science with a concentration in software engineering and neural networks Software engineering is like the basic of computer science, highly competitive nowadays due to its oversaturation but still sought after by a lot of Japanese companies. He'd still be able to utilize any arts and design skills in software engineering since that's one of the skills necessary in the job. As for neural networks, considering Mikoto's brain able to split into another person capable of independent thought and action, working with neural networks is like developing a human since it mimics how humans thoughts are formed and connected.

10 Kotoko: Forensic science and legal anthropology

New AI noise-canceling headphone technology lets wearers pick which sounds they hear - Technology Org

New Post has been published on https://thedigitalinsider.com/new-ai-noise-canceling-headphone-technology-lets-wearers-pick-which-sounds-they-hear-technology-org/

New AI noise-canceling headphone technology lets wearers pick which sounds they hear - Technology Org

Most anyone who’s used noise-canceling headphones knows that hearing the right noise at the right time can be vital. Someone might want to erase car horns when working indoors but not when walking along busy streets. Yet people can’t choose what sounds their headphones cancel.

A team led by researchers at the University of Washington has developed deep-learning algorithms that let users pick which sounds filter through their headphones in real time. Pictured is co-author Malek Itani demonstrating the system. Image credit: University of Washington

Now, a team led by researchers at the University of Washington has developed deep-learning algorithms that let users pick which sounds filter through their headphones in real time. The team is calling the system “semantic hearing.” Headphones stream captured audio to a connected smartphone, which cancels all environmental sounds. Through voice commands or a smartphone app, headphone wearers can select which sounds they want to include from 20 classes, such as sirens, baby cries, speech, vacuum cleaners and bird chirps. Only the selected sounds will be played through the headphones.

The team presented its findings at UIST ’23 in San Francisco. In the future, the researchers plan to release a commercial version of the system.

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“Understanding what a bird sounds like and extracting it from all other sounds in an environment requires real-time intelligence that today’s noise canceling headphones haven’t achieved,” said senior author Shyam Gollakota, a UW professor in the Paul G. Allen School of Computer Science & Engineering. “The challenge is that the sounds headphone wearers hear need to sync with their visual senses. You can’t be hearing someone’s voice two seconds after they talk to you. This means the neural algorithms must process sounds in under a hundredth of a second.”

Because of this time crunch, the semantic hearing system must process sounds on a device such as a connected smartphone, instead of on more robust cloud servers. Additionally, because sounds from different directions arrive in people’s ears at different times, the system must preserve these delays and other spatial cues so people can still meaningfully perceive sounds in their environment.

Tested in environments such as offices, streets and parks, the system was able to extract sirens, bird chirps, alarms and other target sounds, while removing all other real-world noise. When 22 participants rated the system’s audio output for the target sound, they said that on average the quality improved compared to the original recording.

In some cases, the system struggled to distinguish between sounds that share many properties, such as vocal music and human speech. The researchers note that training the models on more real-world data might improve these outcomes.

Source: University of Washington

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DESIGN AN ENHANCED INTRUSION DETECTION MODEL IN A CLOUD COMPUTING ENVIRONMENT. 

DESIGN AN ENHANCED INTRUSION DETECTION MODEL IN A CLOUD COMPUTING ENVIRONMENT ABSTRACT Cloud computing is a new type of service that provides large-scale computing resources to each customer. Cloud computing systems can be easily threatened by various cyberattacks because most cloud computing systems provide services to so many people who are not proven to be trustworthy. Therefore, a cloud…

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How to Advance Your Career with AWS Certifications

In the fast-paced world of cloud computing, Amazon Web Services (AWS) has established itself as a leader in providing scalable, reliable, and cost-effective cloud solutions. As organizations increasingly migrate their workloads to the cloud, the demand for skilled AWS professionals has surged. If you're looking to advance your career in the IT industry, AWS certifications can be your ticket to success. We'll explore how AWS certifications can propel your career forward and provide a step-by-step guide to achieving them.

The Power of AWS Certifications

AWS certifications are widely recognized in the IT industry and are considered a valuable asset for both newcomers and seasoned professionals. Here are some key reasons why AWS certifications can supercharge your career:

1. Industry Recognition

AWS is a trusted name in cloud computing, and their certifications are well-respected by employers worldwide. Holding an AWS certification demonstrates your expertise and commitment to staying current in a rapidly evolving field.

2. Career Advancement

AWS certifications can open doors to new job opportunities and promotions. Many organizations prefer to hire certified professionals because they are seen as more capable and knowledgeable in AWS technologies.

3. Increased Earning Potential

Certified AWS professionals often command higher salaries than their non-certified counterparts. According to a survey by Global Knowledge, AWS-certified individuals earn an average salary that is significantly above the industry average.

4. Skill Validation

Obtaining an AWS certification validates your skills and knowledge in specific AWS services and technologies. It serves as concrete evidence of your expertise in the eyes of potential employers.

Choosing the Right AWS Certification

AWS offers a wide range of certifications, catering to various roles and skill levels. Before you embark on your certification journey, it's essential to choose the one that aligns with your career goals and current experience. Here are a few popular AWS certifications:

1. AWS Certified Cloud Practitioner

Designed for individuals with little or no cloud experience, this entry-level certification provides a broad overview of AWS services, cloud concepts, and basic architectural best practices.

2. AWS Certified Solutions Architect

This certification is ideal for those interested in designing distributed systems on AWS. It covers topics like architectural best practices, security, and scalability.

3. AWS Certified SysOps Administrator

Focused on system operations and management, this certification is suitable for individuals responsible for deploying, managing, and operating systems on AWS.

4. AWS Certified DevOps Engineer

For those interested in automation, this certification validates skills related to continuous delivery, automation, and managing infrastructure as code.

5. AWS Certified Security - Specialty

For security professionals, this certification focuses on securing AWS workloads and implementing advanced security measures.

Steps to AWS Certification Success

Now that you've decided on the right certification, here are the steps to help you achieve your goal:

1. Set Clear Goals

Define your career goals and how AWS certifications align with them. Having a clear vision will keep you motivated throughout your certification journey.

2. Choose Relevant Training Resources

AWS provides extensive documentation and training resources, including online courses, practice exams, and official study guides. Consider enrolling in AWS Certified training courses, which are designed to help you prepare for the exams.

3. Hands-On Experience

Practice is key to mastering AWS. Create your AWS account and experiment with the services covered in your chosen certification. Hands-on experience will deepen your understanding and boost your confidence.

4. Study and Prepare

Devote time to study and review the certification's objectives. Use study guides, practice exams, and community forums to reinforce your knowledge.

5. Take Practice Exams

Practice exams are invaluable for gauging your readiness. They help you identify areas where you need to improve and build your test-taking skills.

6. Schedule and Take the Exam

Once you feel confident in your knowledge, schedule your exam. AWS offers both online and in-person testing options to accommodate your preferences.

7. Stay Informed

AWS constantly updates its services and certifications. Stay informed about changes and consider pursuing additional certifications to continue growing in your career.

Conclusion

AWS certifications have become a gold standard in the IT industry, and they offer an excellent opportunity to advance your career. Whether you're starting from scratch or looking to level up your skills, there's a certification tailored to your needs. Remember that certification is a journey, not a destination. Keep learning, stay updated, and embrace the dynamic world of AWS to unlock the full potential of your cloud computing career. With dedication and the right certifications, you can be on your way to a brighter and more rewarding future in the world of cloud computing.

All-Star Moments in Space Communications and Navigation

How do we get information from missions exploring the cosmos back to humans on Earth? Our space communications and navigation networks – the Near Space Network and the Deep Space Network – bring back science and exploration data daily.

Here are a few of our favorite moments from 2024.

1. Hip-Hop to Deep Space

The stars above and on Earth aligned as lyrics from the song “The Rain (Supa Dupa Fly)” by hip-hop artist Missy Elliott were beamed to Venus via NASA’s Deep Space Network. Using a 34-meter (112-foot) wide Deep Space Station 13 (DSS-13) radio dish antenna, located at the network’s Goldstone Deep Space Communications Complex in California, the song was sent at 10:05 a.m. PDT on Friday, July 12 and traveled about 158 million miles from Earth to Venus — the artist’s favorite planet. Coincidentally, the DSS-13 that sent the transmission is also nicknamed Venus!

NASA's PACE mission transmitting data to Earth through NASA's Near Space Network.

2. Lemme Upgrade You

Our Near Space Network, which supports communications for space-based missions within 1.2 million miles of Earth, is constantly enhancing its capabilities to support science and exploration missions. Last year, the network implemented DTN (Delay/Disruption Tolerant Networking), which provides robust protection of data traveling from extreme distances. NASA’s PACE (Plankton, Aerosol, Cloud, ocean Ecosystem) mission is the first operational science mission to leverage the network’s DTN capabilities. Since PACE’s launch, over 17 million bundles of data have been transmitted by the satellite and received by the network’s ground station.

A collage of the pet photos sent over laser links from Earth to LCRD and finally to ILLUMA-T (Integrated LCRD Low Earth Orbit User Modem and Amplifier Terminal) on the International Space Station. Animals submitted include cats, dogs, birds, chickens, cows, snakes, and pigs.

3. Who Doesn’t Love Pets?

Last year, we transmitted hundreds of pet photos and videos to the International Space Station, showcasing how laser communications can send more data at once than traditional methods. Imagery of cherished pets gathered from NASA astronauts and agency employees flowed from the mission ops center to the optical ground stations and then to the in-space Laser Communications Relay Demonstration (LCRD), which relayed the signal to a payload on the space station. This activity demonstrated how laser communications and high-rate DTN can benefit human spaceflight missions.

4K video footage was routed from the PC-12 aircraft to an optical ground station in Cleveland. From there, it was sent over an Earth-based network to NASA’s White Sands Test Facility in Las Cruces, New Mexico. The signals were then sent to NASA’s Laser Communications Relay Demonstration spacecraft and relayed to the ILLUMA-T payload on the International Space Station.

4. Now Streaming

A team of engineers transmitted 4K video footage from an aircraft to the International Space Station and back using laser communication signals. Historically, we have relied on radio waves to send information to and from space. Laser communications use infrared light to transmit 10 to 100 times more data than radio frequency systems. The flight tests were part of an agency initiative to stream high-bandwidth video and other data from deep space, enabling future human missions beyond low-Earth orbit.

The Near Space Network provides missions within 1.2 million miles of Earth with communications and navigation services.

5. New Year, New Relationships

At the very end of 2024, the Near Space Network announced multiple contract awards to enhance the network’s services portfolio. The network, which uses a blend of government and commercial assets to get data to and from spacecraft, will be able to support more missions observing our Earth and exploring the cosmos. These commercial assets, alongside the existing network, will also play a critical role in our Artemis campaign, which calls for long-term exploration of the Moon.

On Monday, Oct. 14, 2024, at 12:06 p.m. EDT, a SpaceX Falcon Heavy rocket carrying NASA’s Europa Clipper spacecraft lifts off from Launch Complex 39A at NASA’s Kennedy Space Center in Florida.

6. 3, 2, 1, Blast Off!

Together, the Near Space Network and the Deep Space Network supported the launch of Europa Clipper. The Near Space Network provided communications and navigation services to SpaceX’s Falcon Heavy rocket, which launched this Jupiter-bound mission into space! After vehicle separation, the Deep Space Network acquired Europa Clipper’s signal and began full mission support. This is another example of how these networks work together seamlessly to ensure critical mission success.

Engineer Adam Gannon works on the development of Cognitive Engine-1 in the Cognitive Communications Lab at NASA’s Glenn Research Center.

7. Make Way for Next-Gen Tech

Our Technology Education Satellite program organizes collaborative missions that pair university students with researchers to evaluate how new technologies work on small satellites, also known as CubeSats. In 2024, cognitive communications technology, designed to enable autonomous space communications systems, was successfully tested in space on the Technology Educational Satellite 11 mission. Autonomous systems use technology reactive to their environment to implement updates during a spaceflight mission without needing human interaction post-launch.

A first: All six radio frequency antennas at the Madrid Deep Space Communication Complex, part of NASA’s Deep Space Network (DSN), carried out a test to receive data from the agency’s Voyager 1 spacecraft at the same time.

8. Six Are Better Than One

On April 20, 2024, all six radio frequency antennas at the Madrid Deep Space Communication Complex, part of our Deep Space Network, carried out a test to receive data from the agency’s Voyager 1 spacecraft at the same time. Combining the antennas’ receiving power, or arraying, lets the network collect the very faint signals from faraway spacecraft.

Here’s to another year connecting Earth and space.  

Make sure to follow us on Tumblr for your regular dose of space!

LiveU introduces LiveU IQ, The Next Dimension of Resilience and Perfor - Videoguys

New Post has been published on https://thedigitalinsider.com/liveu-introduces-liveu-iq-the-next-dimension-of-resilience-and-perfor-videoguys/

LiveU introduces LiveU IQ, The Next Dimension of Resilience and Perfor - Videoguys

LiveU’s revolutionary new connectivity offering utilizes artificial intelligence and large data sets to break free of pre-allocated network constraints.

After revolutionizing live video transmission 18 years ago, LiveU is doing it again! LiveU IQ (LIQ™) introduces the next dimension in reliability and trust for IP-video technology, ensuring unparalleled performance and resiliency even in the most challenging locations. LIQ is a revolutionary new technological breakthrough in IP-video transport that propels connection, resiliency and performance to previously unreachable heights.

How Does it Work? LiveU Reliable Transport (LRT™) is your go-to IP-video protocol, ensuring rock-solid live video transmission by bonding multiple IP links for maximum bandwidth. LiveU IQ amplifies it, playing to the strengths of network operators by automatically swapping to higher performing ones, even in rural or congested network areas.

Samuel Wasserman, LiveU’s co-founder and CEO, said, “Customer-centric innovation is deeply ingrained in LiveU’s DNA. We founded the company to make video production easier, more accessible, and efficient for broadcasters and content creators, and that mission still drives us today. LiveU IQ means that connectivity options are no longer limited to a preselected, fixed set of cellular operators. Now we can dynamically and smartly switch to the best performing network configurations, live and on air.”

“Unlike current cellular bonding set-ups, where one or more modems may be tied to networks that are not performing as well as others for a given location,” continues Wasserman,” LiveU IQ always plays to the strengths of our network operator partners by automatically swapping to higher performing ones, even in rural or congested network areas.���

“LiveU IQ consists of three main elements: LiveU’s own universal eSIMs, able to work with any operator network; a cloud-based decisioning engine working with our big data set of network performance logs; and LiveU Analytics, showing users the dynamic switching events and exactly how their session performance has improved,” added Gideon Gilboa, LiveU’s Chief Product Officer. “With LIQ, it’s easy for our customers to see how they can ‘Go Live. Better.”

Check out the full announcement here!

Learn more about LiveU here!

"In the Canary Islands, in Barcelona, and in Chile, a unique fog catcher design is sustaining dry forests with water without emissions, or even infrastructure.

Replicating how pine needles catch water, the structure need only be brought on-site and set up, without roads, powerlines, or irrigation channels.

Fog catching is an ancient practice—renamed “cloud milking” by an EU-funded ecology project on the Canary Islands known as LIFE Nieblas (nieblas means fog).

“In recent years, the Canaries have undergone a severe process of desertification and we’ve lost a lot of forest through agriculture. And then in 2007 and 2009, as a result of climate change, there were major fires in forested areas that are normally wet,” said Gustavo Viera, the technical director of the publicly-funded project in the Canaries.

The Canaries routinely experience blankets of fog that cloak the islands’ slopes and forests, but strong winds made fog-catching nets an unfeasible solution. In regions such as the Atacama Desert in Chile or the Atlas Mountains of North Africa, erecting nets that capture moisture particles out of passing currents of fog is a traditional practice.

LIFE Nieblas needed a solution that could resist powerful winds, and to that end designed wind chime-like rows of artificial pine needles, which are also great at plucking moisture from the air. However, unlike nets or palms, they efficiently let the wind pass through them.

The water is discharged without any electricity. There are no irrigation channels, and no machinery is needed to transport the structures. The natural course of streams and creeks need not be altered, nor is there a need to drill down to create wells. The solution is completely carbon-free.

WATER IN THE DESERTS: 

China Announces Completion of a 1,800-Mile Green Belt Around the World’s Most-Hostile Desert

Billions of People Could Benefit from This Breakthrough in Desalination That Ensures Freshwater for the World

Scientists Perfecting New Way to Turn Desert Air into Water at Much Higher Yields

Sahara Desert Is Turning Green Amid Unusual Rains in Parts of North Africa

Indian Engineers Tackle Water Shortages with Star Wars Tech in Kerala

In the ravine of Andén in Gran Canaria, a 35.8-hectare (96 acres) mixture of native laurel trees irrigated by the fog catchers enjoys a survival rate of 86%, double the figure of traditional reforestation.

“The Canaries are the perfect laboratory to develop these techniques,” said Vicenç Carabassa, the project’s head scientist, who works for the Center for Ecological Research and Forestry Applications at the University of Barcelona. “But there are other areas where the conditions are optimal and where there is a tradition of water capture from fog, such as Chile and Morocco.”

In Chile’s Coquimbo province, the town of Chungungo is collecting around 250 gallons a day from a combination of locally-made fog catchers and LIFE Nieblas’ pine needle design, the Guardian reports."

-via Good News Network, December 30, 2024

The flotsam and jetsam of our digital queries and transactions, the flurry of electrons flitting about, warm the medium of air. Heat is the waste product of computation, and if left unchecked, it becomes a foil to the workings of digital civilization. Heat must therefore be relentlessly abated to keep the engine of the digital thrumming in a constant state, 24 hours a day, every day. To quell this thermodynamic threat, data centers overwhelmingly rely on air conditioning, a mechanical process that refrigerates the gaseous medium of air, so that it can displace or lift perilous heat away from computers. Today, power-hungry computer room air conditioners (CRACs) or computer room air handlers (CRAHs) are staples of even the most advanced data centers. In North America, most data centers draw power from “dirty” electricity grids, especially in Virginia’s “data center alley,” the site of 70 percent of the world’s internet traffic in 2019. To cool, the Cloud burns carbon, what Jeffrey Moro calls an “elemental irony.” In most data centers today, cooling accounts for greater than 40 percent of electricity usage.

[...]

The Cloud now has a greater carbon footprint than the airline industry. A single data center can consume the equivalent electricity of 50,000 homes. At 200 terawatt hours (TWh) annually, data centers collectively devour more energy than some nation-states. Today, the electricity utilized by data centers accounts for 0.3 percent of overall carbon emissions, and if we extend our accounting to include networked devices like laptops, smartphones, and tablets, the total shifts to 2 percent of global carbon emissions. Why so much energy? Beyond cooling, the energy requirements of data centers are vast. To meet the pledge to customers that their data and cloud services will be available anytime, anywhere, data centers are designed to be hyper-redundant: If one system fails, another is ready to take its place at a moment’s notice, to prevent a disruption in user experiences. Like Tom’s air conditioners idling in a low-power state, ready to rev up when things get too hot, the data center is a Russian doll of redundancies: redundant power systems like diesel generators, redundant servers ready to take over computational processes should others become unexpectedly unavailable, and so forth. In some cases, only 6 to 12 percent of energy consumed is devoted to active computational processes. The remainder is allocated to cooling and maintaining chains upon chains of redundant fail-safes to prevent costly downtime.

mob: HCI reigen: web development dimple: algorithms ritsu: data science/machine learning teru: software engineering tome: game development serizawa: theory (sorry theory people idk anything abt theory subfields he can have the whole thing) hatori: networks (easiest assignment ever) shou: HPC touichirou: cloud computing/data centers mogami: cyber/IT security tsubomi: programming languages mezato: data science/AI tokugawa: operating systems kamuro: databases shimazaki: computer vision shibata: hardware modifications/overclocking joseph: computer security roshuuto: mobile development hoshida: graphics body improvement club: hardware takenaka: cryptography minegishi: comp bio/synthetic bio matsuo: autonomous robotics koyama: computer architecture (??? i got stuck on this one) sakurai: embedded systems

touichirou is so cloud computing coded