Arm Community
Site
Search
User
Site
Search
User
Groups
Education Hub
Distinguished Ambassadors
Open Source Software and Platforms
Research Collaboration and Enablement
Forums
AI and ML forum
Architectures and Processors forum
Arm Development Platforms forum
Arm Development Studio forum
Arm Virtual Hardware forum
Automotive forum
Compilers and Libraries forum
Graphics, Gaming, and VR forum
High Performance Computing (HPC) forum
Infrastructure Solutions forum
Internet of Things (IoT) forum
Keil forum
Morello forum
Operating Systems forum
SoC Design and Simulation forum
SystemReady Forum
Blogs
AI and ML blog
Announcements
Architectures and Processors blog
Automotive blog
Graphics, Gaming, and VR blog
High Performance Computing (HPC) blog
Infrastructure Solutions blog
Internet of Things (IoT) blog
Operating Systems blog
SoC Design and Simulation blog
Tools, Software and IDEs blog
Support
Arm Support Services
Documentation
Downloads
Training
Arm Approved program
Arm Design Reviews
Community Help
More
Cancel
Arm Community blogs
Internet of Things (IoT) blog
Transmogrify the Personal Computer using efficient low power SoC solutions
Blogs
Mentions
Sub-Groups
Tags
Jump...
Cancel
More blogs in Arm Community blogs
AI and ML blog
Announcements
Architectures and Processors blog
Automotive blog
Embedded blog
Graphics, Gaming, and VR blog
High Performance Computing (HPC) blog
Infrastructure Solutions blog
Internet of Things (IoT) blog
Operating Systems blog
SoC Design and Simulation blog
Tools, Software and IDEs blog
Tags
Actions
RSS
More
Cancel
Related blog posts
Related forum threads
Transmogrify the Personal Computer using efficient low power SoC solutions
Andrew N. Sloss
September 11, 2013
3 minute read time.
Wouldn't it be great if I could transmogrify the PC to become an intelligent network of specialized components? The goal would be to create a much more efficient computation system marrying critical software with specialized System-on-a-Chip (SoC) based hardware.
Background
About 8 years ago there was a craze to build
Beowulf computer class clusters
(concept of building High Performance Computers using standard commodity PCs), so I went about creating a small cluster of PCs and connecting them via Ethernet at home. Finally after completing the project I switched the system on, the lights flickered due to the huge power surge and it became instantly obvious to me that a new approach was required. Not just for High Performance Computing but for the fundamental design of the PC. The PC has too many standard parts which were cheap to manufacture in the short-term, but are wrong for long-term cost and eco friendliness.
A new way forward
Today we buy a PC from a store and it is a general purpose device. Every 3 or 4 years we buy another PC, even though a lot of the standard components are the same between machines. We have been trained to continue this cycle. Recently, there have been signs that the increases in Instruction Level Parallelism (ILP) is starting to slow down. The technology direction is moving towards energy efficient many-core configurations. If we go down this route then we can redesign the base architecture of the PC and try to do something new. I want a computer which is composed of specialized computational elements connected via an extremely fast bus network e.g. over fiber optics. This would remove the requirement for complete replacement every few years and allow someone to add components for specialized activities.
For instance, if I use Microsoft Office as my main editing tool I would purchase a Microsoft Office hardware component which is based on a computation engine (i.e. specialized optimized SoC) carefully designed to execute the Office functions efficiently rather than relying on the traditional general purpose CPU designs. The database and filing system reside somewhere else on the system (i.e. locally or in the cloud). This would allow processing to be achieved in a much more distributed and efficient manner. Computation components not in use can be power down. For example when I'm playing a Game then the Office hardware maybe powered-down but my specialized gaming physics engine is most likely powered-up. Even the phone can be part of the system by providing voice and some computational characteristics.
Today we use the same mallet for every problem even when the mallet isn't the right size or weight. Is it time to optimize the hardware architecture and move away from the traditional PC design created in the 1980's? Somehow a method of piping all the various computations into one or more graphical windows would be required to emulate the standard desktops found today. I suspect this would require some clever GPU design for multi computational rendering. I'll leave this to GPU folks.
Eco factor
All of this would be a good challenge for the computing industry which has relied on this old concept for far too long. The interesting challenge of this approach is cost. Does the fast fiber optics and serialization of the physical communication parts make this concept cost prohibitive? I personally would like to see more interesting and alternative computer system architectures where I can build unique ultra low power + high efficient SoC based computer systems at home using standard interconnects. These systems would avoid the repeated cost of buying the same standard components with every new computer generation. It would allow me to have a componentized computer.
Do you think we are ready?
Parents
Andrew N. Sloss
over 11 years ago
Awesome! I hadn't considered the quantum registers! For me it is more about the distributed computing model approach rather than the general PC computing model but you're right the transport layer would have to be complex, not sure it would require quantum registers but a more practical fiber-optic interconnect.
Cancel
Up
0
Down
Reply
More
Cancel
Comment
Andrew N. Sloss
over 11 years ago
Awesome! I hadn't considered the quantum registers! For me it is more about the distributed computing model approach rather than the general PC computing model but you're right the transport layer would have to be complex, not sure it would require quantum registers but a more practical fiber-optic interconnect.
Cancel
Up
0
Down
Reply
More
Cancel
Children
No Data
Internet of Things (IoT) blog
The power of SystemReady for custom-built OS distributions
Pere Garcia
Arm developed the SystemReady Devicetree band as part of the SystemReady program, learn more in this blog post.
November 22, 2024
Software, Tools, and Ecosystem for ML Edge Devices
Reinhard Keil
Learn how Arm and our Partners enable developers and the IoT software ecosystem to deliver smart, energy efficient ML edge devices.
July 17, 2024
Uniting Arm Enthusiasts: Recap of the hands-on Arm Developer Community Meetup at Texas A&M University
Fidel Makatia
Arm enthusiasts gathered in Texas A&M for a hands-on GPIO workshop using STM Nucleo-F410R3 boards from the Arm Developer Program, fostering knowledge sharing and community bonding.
June 13, 2024