Within the next decade it will be possible to build chip multiprocessors with thousands of cores. We can expect such devices to be exceptionally good at the kinds of problems massively parallel computers are already good at. That leaves a large class of interesting problems, especially those of artificial intelligence, for which multi-core processors are less well suited. Are there alternative architectures, scalable to 100 billion transistors and beyond, tolerant to device faults and process variations, and more appropriate for artificial intelligence problems than thousands of cores connected by a network on chip?Francis Li, Muhammad Usman Khan, Michael Liebelt, Brian Ng and Braden Phillip
Increased transistor integration will soon allow us to build processor chips with over 1,000 cores. ...
The SpiNNaker project aims to develop parallel computer systems with more than a million embedded pr...
This paper introduces a conceptual 100BillionTransistor (100BT) SuperComputers-on-a-Chip consisting ...
billion transistors on a single chip presents opportunities for new levels of computing capability. ...
Over the last years, there has been a fundamental change in the way manufacturers of general-purpose...
Whether future technologies will be ultra-small CMOS transistors, nanotubes, or even individual mole...
With Moore's Law alive and well, more and more parallelism is introduced into all computing pl...
Artificial Intelligence has been the field of study for exploring the principles underlying thought,...
Silicon is used in making transistors conventionally but scaling of silicon if getting difficult wit...
Traditional computational power calculations rely on the assumption that addi- tional processing pow...
this paper: (i) Algorithms for carrying out the desired computation, (ii) Hardware to perform the de...
Recent Silicon advances promise to keep Moore s Forecast true for at least this decade. In numbers...
has emphasized instruction-level parallelism, which improves performance by increasing the number of...
Over the past four decades, the number of transistors on a chip has increased exponentially in acco...
In this paper, we disentangle the changes that the rise of artificial intelligence (AI) technologies...
Increased transistor integration will soon allow us to build processor chips with over 1,000 cores. ...
The SpiNNaker project aims to develop parallel computer systems with more than a million embedded pr...
This paper introduces a conceptual 100BillionTransistor (100BT) SuperComputers-on-a-Chip consisting ...
billion transistors on a single chip presents opportunities for new levels of computing capability. ...
Over the last years, there has been a fundamental change in the way manufacturers of general-purpose...
Whether future technologies will be ultra-small CMOS transistors, nanotubes, or even individual mole...
With Moore's Law alive and well, more and more parallelism is introduced into all computing pl...
Artificial Intelligence has been the field of study for exploring the principles underlying thought,...
Silicon is used in making transistors conventionally but scaling of silicon if getting difficult wit...
Traditional computational power calculations rely on the assumption that addi- tional processing pow...
this paper: (i) Algorithms for carrying out the desired computation, (ii) Hardware to perform the de...
Recent Silicon advances promise to keep Moore s Forecast true for at least this decade. In numbers...
has emphasized instruction-level parallelism, which improves performance by increasing the number of...
Over the past four decades, the number of transistors on a chip has increased exponentially in acco...
In this paper, we disentangle the changes that the rise of artificial intelligence (AI) technologies...
Increased transistor integration will soon allow us to build processor chips with over 1,000 cores. ...
The SpiNNaker project aims to develop parallel computer systems with more than a million embedded pr...
This paper introduces a conceptual 100BillionTransistor (100BT) SuperComputers-on-a-Chip consisting ...