Title :
Exploiting Parity Computation Latency for On-Chip Crosstalk Reduction
Author :
Fu, Bo ; Ampadu, Paul
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Rochester, Rochester, NY, USA
fDate :
5/1/2010 12:00:00 AM
Abstract :
This brief provides an efficient method to address both logic errors and crosstalk-induced delay variations. In particular, the inherent skew resulting from parity generation is exploited to ensure that no two adjacent wires switch in opposite directions simultaneously, thereby reducing worst-case on-chip capacitive coupling. Data and parity-check bits are mapped to link driver registers, which are triggered by alternating clock phases. The proposed method reduces worst-case link delay by 25% for a 5 mm link, as compared to a conventional skewed transition approach. Compared with other solutions that simultaneously handle logic and delay errors, the proposed method reduces delay uncertainty by up to 24%, improves residual word error probability by 2.5×, requires fewer wires, and achieves up to 45% and 32% reductions in area and energy consumption, respectively.
Keywords :
crosstalk; driver circuits; error correction codes; error statistics; integrated circuit interconnections; adjacent wires switch; crosstalk-induced delay variations; delay uncertainty; energy consumption; error-control coding; link delay; link driver registers; logic errors; on-chip crosstalk reduction; on-chip interconnects; parity-check bits; residual word error probability; worst-case on-chip capacitive coupling; Clocks; Crosstalk; Delay; Energy consumption; Error probability; Logic; Parity check codes; Switches; Uncertainty; Wires; Crosstalk avoidance; error-control coding (ECC); on-chip interconnects; reliability; skewed transition;
Journal_Title :
Circuits and Systems II: Express Briefs, IEEE Transactions on
DOI :
10.1109/TCSII.2010.2043472
