3,966 research outputs found
BISMO: A Scalable Bit-Serial Matrix Multiplication Overlay for Reconfigurable Computing
Matrix-matrix multiplication is a key computational kernel for numerous
applications in science and engineering, with ample parallelism and data
locality that lends itself well to high-performance implementations. Many
matrix multiplication-dependent applications can use reduced-precision integer
or fixed-point representations to increase their performance and energy
efficiency while still offering adequate quality of results. However, precision
requirements may vary between different application phases or depend on input
data, rendering constant-precision solutions ineffective. We present BISMO, a
vectorized bit-serial matrix multiplication overlay for reconfigurable
computing. BISMO utilizes the excellent binary-operation performance of FPGAs
to offer a matrix multiplication performance that scales with required
precision and parallelism. We characterize the resource usage and performance
of BISMO across a range of parameters to build a hardware cost model, and
demonstrate a peak performance of 6.5 TOPS on the Xilinx PYNQ-Z1 board.Comment: To appear at FPL'1
A Survey of Techniques for Improving Security of GPUs
Graphics processing unit (GPU), although a powerful performance-booster, also
has many security vulnerabilities. Due to these, the GPU can act as a
safe-haven for stealthy malware and the weakest `link' in the security `chain'.
In this paper, we present a survey of techniques for analyzing and improving
GPU security. We classify the works on key attributes to highlight their
similarities and differences. More than informing users and researchers about
GPU security techniques, this survey aims to increase their awareness about GPU
security vulnerabilities and potential countermeasures
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Silicon compilation
Silicon compilation is a term used for many different purposes. In this paper we define silicon compilation as a mapping from some higher level description into layout. We define the basic issues in structural and behavioral silicon compilation and some possible solutions to those issues. Finally, we define the concept of an intelligent silicon compiler in which the compiler evaluates the quality of the generated design and attempts to improve it if it is not satisfactory
Energy Saving Techniques for Phase Change Memory (PCM)
In recent years, the energy consumption of computing systems has increased
and a large fraction of this energy is consumed in main memory. Towards this,
researchers have proposed use of non-volatile memory, such as phase change
memory (PCM), which has low read latency and power; and nearly zero leakage
power. However, the write latency and power of PCM are very high and this,
along with limited write endurance of PCM present significant challenges in
enabling wide-spread adoption of PCM. To address this, several
architecture-level techniques have been proposed. In this report, we review
several techniques to manage power consumption of PCM. We also classify these
techniques based on their characteristics to provide insights into them. The
aim of this work is encourage researchers to propose even better techniques for
improving energy efficiency of PCM based main memory.Comment: Survey, phase change RAM (PCRAM
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