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ISCAS
1994
IEEE
1994
IEEE
High-Throughput Data Compressor Designs Using Content Addressable Memory
This paper presents a novel VLSI architecture for high-speed data compressor designs which implement the well-known LZ77 algorithm. The architecture mainly consists of three units, namely content addressable memory, match logic, and output stage. The content address memory generates a set of hit signals which identify those positions whose symbols in a specified window are the same as input symbol. These hits signals are then passed to the match logic which determines one matched stream and its match length and location in the window to form the kernel of compressed data. These two items are then passed to the output stage for packetization before sent out. By trading off hardware complexity and compression ratio, 2KB window size and adjustable maximum match length are considered in our proto-type VLSI chip. Simulation results show that, based on a 0.8pm CMOS process technology, clock speed up to 5OMHz can be achieved. This implies that the developing data compressor chip can handle m...
Real-time TrafficData Compressor | Hardware | ISCAS 1994 | Match Length | Match Logic |
Related Content
| Added | 09 Aug 2010 |
| Updated | 09 Aug 2010 |
| Type | Conference |
| Year | 1994 |
| Where | ISCAS |
| Authors | Ren-Yang Yang, Chen-Yi Lee |
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