Our results show that conservation cores can reduce energy consumption by up to 16.0x for functions and by up to 2.1x for whole applications, while patching can ...
Our re- sults show that conservation cores can reduce energy consumption by up to 16.0× for functions and by up to 2.1× for whole appli- cations, while patching ...
Conservation Cores: Reducing the Energy of Mature Computations
llvm.org › pubs › 2010-03-ASPLOS-Co...
Our results show that conservation cores can reduce energy consumption by up to 16.0x for functions and by up to 2.1x for whole applications, while patching can ...
Our results show that conservation cores can reduce energy consumption by up to 16.0x for functions and by up to 2.1x for whole applications, while patching can ...
Our Approach: Fill dark silicon with specialized cores to save energy on common apps; Power savings can be applied to other program, increasing throughput.
Taylor, M. B. (2010). Conservation cores: reducing the energy of mature computations. Architectural Support for Programming Languages and Operating Systems, 38( ...
Fill dark silicon with specialized energy-saving coprocessors that save energy on common apps. – Only turn on the cores as you need them.
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Conservation Cores, Reducing the Energy of Mature Computations. Jun 1 (F). Warehouse-scale Computing, FPGA Clouds, ASIC Clouds. Specializing a Planet ...
Conservation cores: reducing the energy of mature computations. G Venkatesh ... QsCores: Trading dark silicon for scalable energy efficiency with quasi-specific ...
Conservation cores, or c-cores, are specialized processors that focus on reducing energy and energy-delay instead of increasing performance. This focus on ...