文件名称:interfaces_for_mixed_timing_systems
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This paper presents several low-latency mixed-timing
FIFO (first-in–first-out) interfaces designs that interface systems
on a chip working at different speeds. The connected systems
can be either synchronous or asynchronous. The designs are then
adapted to work between systems with very long interconnect
delays, by migrating a single-clock solution by Carloni et al.
(1999, 2000, and 2001) (for “latency-insensitive” protocols) to
mixed-timing domains. The new designs can be made arbitrarily
robust with regard to metastability and interface operating speeds.
Initial simulations for both latency and throughput are promising.-This paper presents several low-latency mixed-timingFIFO (first-in-first-out) interfaces designs that interface systemson a chip working at different speeds. The connected systemscan be either synchronous or asynchronous. The designs are thenadapted to work between systems with very long interconnectdelays, by migrating a single-clock solution by Carloni et al. (1999, 2000, and 2001) (for latency-insensitive protocols) tomixed-timing domains. The new designs can be made arbitrarilyrobust with regard to metastability and interface operating speeds.Initial simulations for both latency and throughput are promising.
FIFO (first-in–first-out) interfaces designs that interface systems
on a chip working at different speeds. The connected systems
can be either synchronous or asynchronous. The designs are then
adapted to work between systems with very long interconnect
delays, by migrating a single-clock solution by Carloni et al.
(1999, 2000, and 2001) (for “latency-insensitive” protocols) to
mixed-timing domains. The new designs can be made arbitrarily
robust with regard to metastability and interface operating speeds.
Initial simulations for both latency and throughput are promising.-This paper presents several low-latency mixed-timingFIFO (first-in-first-out) interfaces designs that interface systemson a chip working at different speeds. The connected systemscan be either synchronous or asynchronous. The designs are thenadapted to work between systems with very long interconnectdelays, by migrating a single-clock solution by Carloni et al. (1999, 2000, and 2001) (for latency-insensitive protocols) tomixed-timing domains. The new designs can be made arbitrarilyrobust with regard to metastability and interface operating speeds.Initial simulations for both latency and throughput are promising.
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interfaces for mixed-timing systems.pdf