Appendix d. header and payload compression, D.1 introduction, D.1.1 traffic optimization – Comtech EF Data CDM-840 User Manual

D–1

Appendix D. HEADER

AND

PAYLOAD COMPRESSION

D.1

Introduction

Chapter 6. ETHERNET-BASED REMOTE PRODUCT MANAGEMENT

Header and Payload Compression are standard features provided in Comtech EF Data’s

Advanced VSAT Series group of products, including the CDM-840 Remote Router.

The CDM-840 implements Payload Compression via the presence of a GZIP ASIC on the CDM-

840 main board. This integrated circuit provides the transmit compression and receive

decompression capabilities for maximum throughput and efficiency.

With Header Compression, the compression library that is incorporated into the CDM-840 for all

IP traffic can reduce 40-byte IP/UDP/RTP headers to as little as one (1) byte, or as little as three

(3) bytes for TCP/IP. For Voice-over-IP (VoIP), Header Compression provides bandwidth savings

greater than 64%.

For example, using an 8kbps G.729E voice codec requires 24 kbps of IP bandwidth once

encapsulated into an IP/UDP/RTP datagram. With Comtech EF Data’s Header Compression

enabled, the same voice call requires only an approximate 8.5 kbps – a savings of almost 65%.

Additionally, bandwidth requirements for typical Web/HTTP traffic can be reduced by 10% or

more with TCP/IP Header Compression operation enabled.

With Payload Compression, the required satellite bandwidth can be reduced by as much as 40 to

50% based on Calgary Corpus files. The compression algorithm can be applied to all data, SLE

and DVB-S2 header excluded. Compression statistics are fed back to the Quality of Service (QoS)

system in order to maximize WAN utilization while maintaining priority, latency, and jitter.

D.1.1 Traffic Optimization

Traffic optimization through payload compression is provided on the CDM-840 using Comtech

AHA Corp. compression technology via its installed ASIC. The CDM-840 ostensibly supports a

hardware-accelerated compression algorithm based on GZIP, a file format standard where the

underlying compression algorithm is called Deflate. Deflate is a compression algorithm that is