Computing systems have seen tremendous growth over the past few decades in their capabilities, efficiency, and deployment use cases. This growth has been driven by progress in lithography techniques, improvement in synthesis tools, architectures and power management. However, there is a growing disparity between computing power and the demands on modern computing systems. The standard Von-Neuman architecture has separate data storage and data processing locations. Therefore, it suffers from a memory-processor communication bottleneck, which is commonly referred to as the \u27memory wall\u27. The relatively slower progress in memory technology compared with processing units has continued to exacerbate the memory wall problem. As feature size...
With the accessible data reaching zettabyte level, CMOS technology is reaching its limit for the dat...
Approximate computing frameworks configure applications so they can operate at a range of points in ...
© 2023 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Most computers today are based on the von Neumann architecture introduced by John von Neumann in 194...
The continued scaling of the CMOS device has been largely responsible for the increase in computatio...
The use of memristors and resistive random access memory (ReRAM) technology to perform logic computa...
A monolithic computer is an emerging architecture in which a multicore CPU and a high-capacity main ...
Despite decades of advancements, modern computing systems which are based on the von Neumann archite...
A new design approach, called approximate computing (AxC), leverages the flexibility provided by int...
As data movement operations and power-budget become key bottlenecks in the design of computing syste...
The increasing demand on requirements for high performance and energy efficiency in modern digital s...
Emerging non-volatile memories are dense and potentially compatible with standard CMOS processes, en...
Many modern workloads such as multimedia, recognition, mining, search, vision, etc. possess the char...
The unprecedented growth in Deep Neural Networks (DNN) model size has resulted into a massive amount...
For decades, innovations to surmount the processor versus memory gap and move beyond conventional vo...
With the accessible data reaching zettabyte level, CMOS technology is reaching its limit for the dat...
Approximate computing frameworks configure applications so they can operate at a range of points in ...
© 2023 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Most computers today are based on the von Neumann architecture introduced by John von Neumann in 194...
The continued scaling of the CMOS device has been largely responsible for the increase in computatio...
The use of memristors and resistive random access memory (ReRAM) technology to perform logic computa...
A monolithic computer is an emerging architecture in which a multicore CPU and a high-capacity main ...
Despite decades of advancements, modern computing systems which are based on the von Neumann archite...
A new design approach, called approximate computing (AxC), leverages the flexibility provided by int...
As data movement operations and power-budget become key bottlenecks in the design of computing syste...
The increasing demand on requirements for high performance and energy efficiency in modern digital s...
Emerging non-volatile memories are dense and potentially compatible with standard CMOS processes, en...
Many modern workloads such as multimedia, recognition, mining, search, vision, etc. possess the char...
The unprecedented growth in Deep Neural Networks (DNN) model size has resulted into a massive amount...
For decades, innovations to surmount the processor versus memory gap and move beyond conventional vo...
With the accessible data reaching zettabyte level, CMOS technology is reaching its limit for the dat...
Approximate computing frameworks configure applications so they can operate at a range of points in ...
© 2023 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...