Approximate computing recognizes that many applications can tolerate inexactness. These applications, which range from multimedia processing to machine learning, operate on inherently noisy and imprecise data. As a result, we can tradeoff some loss in output value integrity for improved processor performance and energy-efficiency. In this paper, we introduce load value approximation. In modern processors, upon a load miss in the private cache, the data must be retrieved from main memory or from the higher-level caches. These data accesses are costly both in terms of latency and energy. We implement load value approximators, which are hardware structures that learn value patterns and generate approximations of the data. The processor can the...
The slowdown of Moore's law, which has been the driving force of the electronics industry over the l...
The ever-increasing computational power of contemporary microprocessors reduces the execution time s...
The ever-increasing computational power of contemporary microprocessors reduces the execution time s...
Abstract—Approximate computing explores opportunities that emerge when applications can tolerate err...
CMOS is a technology that has been around for many years. Because of its low cost and high availabil...
This paper demonstrates how to utilize the inherent error resilience of a wide range of applications...
Research areas: Approximate Computing, Computer Architecture, Memory System ArchitecturesThis paper ...
Many modern workloads such as multimedia, recognition, mining, search, vision, etc. possess the char...
The demand for power efficient design has increased exponentially with the advent of smartphones cap...
This paper describes Approximate Value Reconstruction (AVR), an architecture for approximate memory ...
Approximate computing is a technique that exploits trade-offs between energy/performance and quality...
Applications in various fields, such as machine learning, scientific computing and signal/image proc...
Approximate computing is an emerging design paradigm that leverages the intrinsic resilience of appl...
Memory accesses in modern processors are both far slower and vastly more energy-expensive than the a...
International audienceA new design paradigm, Approximate Computing (AxC), has been established to in...
The slowdown of Moore's law, which has been the driving force of the electronics industry over the l...
The ever-increasing computational power of contemporary microprocessors reduces the execution time s...
The ever-increasing computational power of contemporary microprocessors reduces the execution time s...
Abstract—Approximate computing explores opportunities that emerge when applications can tolerate err...
CMOS is a technology that has been around for many years. Because of its low cost and high availabil...
This paper demonstrates how to utilize the inherent error resilience of a wide range of applications...
Research areas: Approximate Computing, Computer Architecture, Memory System ArchitecturesThis paper ...
Many modern workloads such as multimedia, recognition, mining, search, vision, etc. possess the char...
The demand for power efficient design has increased exponentially with the advent of smartphones cap...
This paper describes Approximate Value Reconstruction (AVR), an architecture for approximate memory ...
Approximate computing is a technique that exploits trade-offs between energy/performance and quality...
Applications in various fields, such as machine learning, scientific computing and signal/image proc...
Approximate computing is an emerging design paradigm that leverages the intrinsic resilience of appl...
Memory accesses in modern processors are both far slower and vastly more energy-expensive than the a...
International audienceA new design paradigm, Approximate Computing (AxC), has been established to in...
The slowdown of Moore's law, which has been the driving force of the electronics industry over the l...
The ever-increasing computational power of contemporary microprocessors reduces the execution time s...
The ever-increasing computational power of contemporary microprocessors reduces the execution time s...