Asynchronous 2‐Phase Protocol Based on Ternary Encoding for On‐Chip Interconnect

Asynchronous 2‐Phase Protocol Based on Ternary Encoding for On‐Chip Interconnect

Level‐encoded dual‐rail (LEDR) has been widely used in on‐chip asynchronous interconnects supporting a 2‐phase handshake protocol. However, it inevitably requires 2N wires for N‐bit data transfers. Encoder and decoder circuits that perform an asynchronous 2‐phase handshake protocol with only N wires...

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Veröffentlicht in:ETRI journal 2011, 33(5), , pp.822-825
Hauptverfasser: Oh, Myeong‐Hoon, Kim, Seongwoon
Format: Artikel
Sprache:eng
Schlagworte:
Asynchronous handshake protocol
multiple‐valued logic
ternary encoding
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Zusammenfassung:Level‐encoded dual‐rail (LEDR) has been widely used in on‐chip asynchronous interconnects supporting a 2‐phase handshake protocol. However, it inevitably requires 2N wires for N‐bit data transfers. Encoder and decoder circuits that perform an asynchronous 2‐phase handshake protocol with only N wires for N‐bit data transfers are presented for on‐chip global interconnects. Their fundamentals are based on a ternary encoding scheme using current‐mode multiple valued logics. Using 0.25 μm CMOS technologies, the maximum reduction ratio of the proposed circuits, compared with LEDR in terms of power‐delay product, was measured as 39.5% at a wire length of 10 mm and data rate of 100 MHz.
ISSN:1225-6463
2233-7326
DOI:10.4218/etrij.11.0211.0063