Area and power-constrained edge devices are increasingly utilized to perform compute intensive workloads, necessitating increasingly area and power-efficient accelerators. In this context, in-SRAM computing performs hundreds of parallel operations on spatially local data common in many emerging workloads, while reducing power consumption due to data movement. However, in-SRAM computing faces many challenges, including integration into the existing architecture, arithmetic operation support, data corruption at high operating frequencies, inability to run at low voltages, and low area density. To meet these challenges, this article introduces BLADE, a BitLine Accelerator for Devices on the Edge. BLADE is an in-SRAM computing architecture that...
Technology scaling has driven the development of the computing industry during the past 50 years. Ho...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from ...
International audienceThis article presents Computational SRAM (C-SRAM) solution combining In- and N...
Area and power-constrained edge devices are increasingly utilized to perform compute intensive workl...
Area and power constrained edge devices are increasingly utilized to perform compute intensive workl...
The increasing ubiquity of edge devices in the consumer market, along with their ever more computati...
The increasing ubiquity of edge devices in the consumer market, along with their ever more computati...
With the surge in complexity of edge workloads, it appeared in the scientific community that such wo...
textOne of the major limiters to computer systems and systems on chip (SOC) designs is accessing the...
With the spread of cloud services and Internet of Things concept, there is a popularization of machi...
With the spread of cloud services and Internet of Things concept, there is a popularization of machi...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from e...
Recently there has been a lot of effort in making the Internet of Things (IoT) a reality. A central ...
textIncreasing power dissipation is one of the most serious challenges facing designers in the micro...
Presented is a speculative server blade architecture called a FlashBlade that combines 100x I/O perf...
Technology scaling has driven the development of the computing industry during the past 50 years. Ho...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from ...
International audienceThis article presents Computational SRAM (C-SRAM) solution combining In- and N...
Area and power-constrained edge devices are increasingly utilized to perform compute intensive workl...
Area and power constrained edge devices are increasingly utilized to perform compute intensive workl...
The increasing ubiquity of edge devices in the consumer market, along with their ever more computati...
The increasing ubiquity of edge devices in the consumer market, along with their ever more computati...
With the surge in complexity of edge workloads, it appeared in the scientific community that such wo...
textOne of the major limiters to computer systems and systems on chip (SOC) designs is accessing the...
With the spread of cloud services and Internet of Things concept, there is a popularization of machi...
With the spread of cloud services and Internet of Things concept, there is a popularization of machi...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from e...
Recently there has been a lot of effort in making the Internet of Things (IoT) a reality. A central ...
textIncreasing power dissipation is one of the most serious challenges facing designers in the micro...
Presented is a speculative server blade architecture called a FlashBlade that combines 100x I/O perf...
Technology scaling has driven the development of the computing industry during the past 50 years. Ho...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from ...
International audienceThis article presents Computational SRAM (C-SRAM) solution combining In- and N...