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ZipAccel-D: GUNZIP/ZLIB/Inflate Data Decompression Core

Computer Aided Software Technologies, Inc (dba CAST)

Member

ZipAccel-D is a custom hardware implementation of a lossless data decompression engine that complies with the Inflate/Deflate, GZIP/GUNZIP, and ZLIB compression standards.

The core features fast processing, with low latency and high throughput. On average the core outputs three bytes of decompressed data per clock cycle. Designers can scale the throughput further by instantiating the core multiple times to achieve throughput rates exceeding 100Gbps. The latency is in the order of a few tens of clock cycles for blocks coded with static Huffman tables, and typically less than 2,000 cycles for blocks encoded with dynamic Huffman tables.

The decompression core has been designed for ease of use and integration. It operates on a standalone basis, off-loading the host CPU from the demanding task of data decompression. The core receives compressed input files and outputs decompressed files. No preprocessing of the compressed files is required, as the core ...

ZipAccel-D is a custom hardware implementation of a lossless data decompression engine that complies with the Inflate/Deflate, GZIP/GUNZIP, and ZLIB compression standards.

The core features fast processing, with low latency and high throughput. On average the core outputs three bytes of decompressed data per clock cycle. Designers can scale the throughput further by instantiating the core multiple times to achieve throughput rates exceeding 100Gbps. The latency is in the order of a few tens of clock cycles for blocks coded with static Huffman tables, and typically less than 2,000 cycles for blocks encoded with dynamic Huffman tables.

The decompression core has been designed for ease of use and integration. It operates on a standalone basis, off-loading the host CPU from the demanding task of data decompression. The core receives compressed input files and outputs decompressed files. No preprocessing of the compressed files is required, as the core parses the file headers, checks the input files for errors, and outputs the decompressed data payload. Featuring extensive error tracking and reporting errors, the core enables smooth system operation and error recovery, even in the presence of errors in the compressed input files. Furthermore, internal memories can optionally support Error Correction Codes (ECC) to simplify the achievement of Enterprise-Class reliability or functional safety requirements.

The ZipAccel-D core is a microcode-free design developed for reuse. Streaming data, optionally bridged to AMBA AXI4-stream, interfaces ease SoC integration. Technology mapping is straightforward, as the design is scan-ready, microcode-free, and uses easily replaceable, generic memory models.

Key Features

  • ZLIB (RFC-1950), Inflate/Deflate (RFC-1951), GZIP/GUNZIP (RFC-1952) Standards
  • Up to 32KB history window size. All Deflate block types: Static and dynamic Huffman-coded blocks and Stored Deflate blocks.
  • Three bytes per clock average processing rate.
  • Latency from 20 clock cycles for Static Huffman blocks, and typically less than 2000 cycles for Dynamic Huffman Blocks.
  • Processor-free, standalone operation.
  • Extensive error-catching & reporting for smooth operation and recovery in the presence of errors.
  • Synthesis-time configuration options allow fine-tuning the core’s size and performance.
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Offering Brief

Offering Brief

Device Family Agilex™ 3 FPGA C-Series, Agilex™ 5 FPGA D-Series, Agilex™ 5 FPGA E-Series, Agilex™ 7 FPGA F-Series, Agilex™ 7 FPGA I-Series, Agilex™ 7 FPGA M-Series, Agilex™ 9 FPGA Direct RF-Series, Arria® 10 GT FPGA, Arria® 10 GX FPGA, Arria® 10 SX FPGA, Arria® V GT FPGA, Arria® V GX FPGA, Arria® V GZ FPGA, Arria® V ST FPGA, Arria® V SX FPGA, Cyclone® 10 GX FPGA, Cyclone® 10 LP FPGA, Cyclone® IV E FPGA, Cyclone® IV GX FPGA, Cyclone® V E FPGA, Cyclone® V GT FPGA, Cyclone® V GX FPGA, Cyclone® V SE FPGA, Cyclone® V ST FPGA, Cyclone® V SX FPGA, Stratix® 10 AX FPGA, Stratix® 10 Bare Die, Stratix® 10 GX FPGA, Stratix® 10 SX FPGA, Stratix® 10 TX FPGA
Offering Status Production
Integrated Testbench Yes
Evaluation License Yes
Design Examples Available Yes
Demo No
Compliance No
Latest Quartus Version Supported 24.3.1
Development Language Encrypted Verilog, Verilog

Verilog/System Verilog, Encrypted Verilog/System Verilog or netlist

Comprehensive documentation

Sample simulation and synthesis scripts

Verilog testbenches

Bit-Accurate Model

Ordering Information

Documentation & Resources

Market Segment and Sub-Segments