Title :
An asynchronous 2-D discrete cosine transform chip
Author :
Smith, Ross ; Fant, Karl ; Parker, Dave ; Stephani, Rick ; Wang, Ching-Yi
Author_Institution :
Theseus Logic Inc., St. Paul, MN, USA
fDate :
30 Mar-2 Apr 1998
Abstract :
This paper describes a fully asynchronous two-dimensional discrete cosine transform chip. The chip has a fixed block size of 8×8 pixels and uses bit-serial arithmetic. The chip was fabricated through MOSIS using a 0.8 μ double-metal CMOS process. The 49.5 mm2 core uses ~162,000 transistors. The chip operates from 0.65 V to 7.0 V, but its pixel rate at 5.0 V, 17 MHz, is significantly below the 27 MHz simulated because none of the signal´s capacitances were backextracted. In order to design a completely asynchronous chip, a FIFO-based transposition memory was used, even though it used more area than RAM-based memory. The most interesting aspects of the design are presented here: the memory control structure, the pipelining structures, the use of Xilinx FPGAs and a Quickturn emulation system for emulation, and a comparison with other synchronous and asynchronous designs
Keywords :
asynchronous circuits; digital signal processing chips; discrete cosine transforms; 0.65 to 7.0 V; 0.8 μ double-metal CMOS process; 0.8 mum; MOSIS; Quickturn emulation system; Xilinx FPGAs; asynchronous; bit-serial arithmetic; discrete cosine transform chip; memory control; pipelining structures; two-dimensional; CMOS logic circuits; Control systems; Data processing; Discrete cosine transforms; Field programmable gate arrays; Hysteresis; Identity-based encryption; Logic design; Process control; Random access memory;
Conference_Titel :
Advanced Research in Asynchronous Circuits and Systems, 1998. Proceedings. 1998 Fourth International Symposium on
Conference_Location :
San Deigo, CA
Print_ISBN :
0-8186-8392-9
DOI :
10.1109/ASYNC.1998.666508
