VHDL Implementation of High-Performance and Dynamically Configures Multi-port Cache Memory
Information Technology: New Generations(2010)
摘要
This paper presents the implementation of 64x64 multi-port Static Random Access Memory (SRAM) and newly proposed dynamically configured multi-port SRAM in VHDL (VHSIC hardware description language). It uses a dynamic memory partitioning algorithm where a VHDL test-bench is developed to verify the functionality of the dynamically configured memory. Results demonstrate that critical memory operations such as “read miss”, “write miss” and “write bypass” can be performed using newly proposed low power, area efficient dynamically configured memory.
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关键词
vhsic hardware description language,low power,multi-port static random access,dynamically configured multi-port sram,vhdl implementation,vhdl test-bench,efficient dynamically configured memory,dynamically configured memory,critical memory operation,dynamically configures multi-port cache,dynamic memory,circuits,static random access memory,leakage current,hardware description languages,power dissipation,cache memory,information technology,transistors,silicon,sram,vhdl
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