Reducing access energy of on-chip data memory considering active data bitwidth | Zendy

Takanori Okuma | Zendy; Yun Cao | Zendy; Masanori Muroyama | Zendy; Hiroto Yasuura | Zendy

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Reducing access energy of on-chip data memory considering active data bitwidth

Author(s) -

Takanori Okuma,

Yun Cao,

Masanori Muroyama,

Hiroto Yasuura

Publication year - 2002

Publication title -

qir (kyushu university institutional repository) (kyushu university)

Language(s) - English

Resource type - Conference proceedings

ISBN - 1-58113-475-4

DOI - 10.1145/566408.566433

Subject(s) - computer science , data access , chip , random access memory , embedded system , database , computer hardware , telecommunications

This paper presents a new concept called active data bitwidth, which is the effective data length of data bus. By means of profiling the active data bitwidth dynamically, we present a novel low-energy memory access technique for on-chip data memory design. By reducing the redundant access energy of data memory, our experimental results of two real applications, show that we can achieve significant energy reduction. Compared to the monolithic memory, for JPEG, 52.2%; for MPEG-2 84.2%, the energy reduction is reported. Compared to the memory banking technique, 12.3% energy reduction for JPEG and 65.9% for MPEG-2 is reported.

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