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Integrated SRAM compiler with clamping diode to reduce leakage and dynamic power in nano-CMOS process

Integrated SRAM compiler with clamping diode to reduce leakage and dynamic power in nano-CMOS process

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© The Institution of Engineering and Technology
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An integrated static random access memory (SRAM) compiler is proposed to reduce both leakage and dynamic power at circuit and architectural level. Based on source biasing scheme, an extra clamping diode in parallel with a pull-down n-type metal-oxide semiconductor transistor is inserted between the ground and source line of a SRAM cell to achieve reduction in the leakage current as well as data retention capability. Bit line charging/discharging current is greatly decreased by introducing extra Z decoding circuits and thus reducing dynamic power significantly. Test chips with 11 embedded SRAMs have been fabricated in UMC 55 nm complementary metal-oxide semiconductor process and the measurement results have proved the effectiveness of the proposed technique.

Inspec keywords: decoding; MOSFET; diodes; CMOS memory circuits; leakage currents; nanoelectronics; random-access storage

Other keywords: Z decoding circuits; data retention capability; source biasing scheme; nano-CMOS process; source line; leakage current; integrated static random access memory compiler; pull-down n-type metal-oxide semiconductor transistor; clamping diode; bit line charging-discharging current; integrated SRAM compiler; dynamic power

Subjects: Insulated gate field effect transistors; CMOS integrated circuits; Memory circuits

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      • Hua, C., Cheng, T., Hwang, W.: `Distributed data-retention power gating techniques for column and row co-controlled embedded SRAM', IEEE Int. Workshop on Memory Technology, Design, and Testing, 2005, Taipei, p. 129–134.
http://iet.metastore.ingenta.com/content/journals/10.1049/mnl.2011.0680
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