Trends in VLSI technology scaling demand that future computing devices be narrowly focused to achieve high performance and high efficiency, yet also target the high volumes and low costs of widely applicable general purpose designs. To address these conflicting requirements, we propose a modular reconfigurable architecture called Smart Memories, targeted at computing needs in the 0.1μm technology generation. A Smart Memories chip is made up of many processing tiles, each containing local memory, local interconnect, and a processor core. For efficient computation under a wide class of possible applications, the memories, the wires, and the computational model can all be altered to match the applications. To show the applicability of this des...
The high performance requirements of nowadays computer networks are limiting their ability to suppor...
The need for small, high speed, low power computers as the end of Moore’s law approaches is driving ...
Hybrid memory cube (HMC) has promised to improve bandwidth, power consumption, and density for the n...
This paper presents a novel compilation system that allows sequential programs, written in C or FORT...
The Stanford Smart Memories polymorphic chip-multipro-cessor architecture was conceived as a unified...
International audience—This paper presents the computing model for In-Memory Computing architecture ...
3D integration of solid-state memories and logic, as demonstrated by the Hybrid Memory Cube (HMC), o...
\u3cp\u3eCMOS technology and its sustainable scaling have been the enablers for the design and manuf...
Computer architecture faces an enormous challenge in recent years: while the demand for performance ...
Developing energy-efficient parallel information processing systems beyond von Neumann architecture ...
3D integration of solid-state memories and logic, as demonstrated by the Hybrid Memory Cube (HMC), o...
We introduce SMaRT, a 16-bit single-cycle RISC-type processor with 16-bit-wide instructions. SMaRT f...
Computing systems are undergoing a transformation from logic-centric towards memory-centric architec...
Computing drives a lot of developments all around us, and leads to innovation in many fields of scie...
While the compute part keeping scaling for decades, it becomes more and more difficult for the memor...
The high performance requirements of nowadays computer networks are limiting their ability to suppor...
The need for small, high speed, low power computers as the end of Moore’s law approaches is driving ...
Hybrid memory cube (HMC) has promised to improve bandwidth, power consumption, and density for the n...
This paper presents a novel compilation system that allows sequential programs, written in C or FORT...
The Stanford Smart Memories polymorphic chip-multipro-cessor architecture was conceived as a unified...
International audience—This paper presents the computing model for In-Memory Computing architecture ...
3D integration of solid-state memories and logic, as demonstrated by the Hybrid Memory Cube (HMC), o...
\u3cp\u3eCMOS technology and its sustainable scaling have been the enablers for the design and manuf...
Computer architecture faces an enormous challenge in recent years: while the demand for performance ...
Developing energy-efficient parallel information processing systems beyond von Neumann architecture ...
3D integration of solid-state memories and logic, as demonstrated by the Hybrid Memory Cube (HMC), o...
We introduce SMaRT, a 16-bit single-cycle RISC-type processor with 16-bit-wide instructions. SMaRT f...
Computing systems are undergoing a transformation from logic-centric towards memory-centric architec...
Computing drives a lot of developments all around us, and leads to innovation in many fields of scie...
While the compute part keeping scaling for decades, it becomes more and more difficult for the memor...
The high performance requirements of nowadays computer networks are limiting their ability to suppor...
The need for small, high speed, low power computers as the end of Moore’s law approaches is driving ...
Hybrid memory cube (HMC) has promised to improve bandwidth, power consumption, and density for the n...