M.6 versafec acm – Comtech EF Data CDM-625A User Manual

CDM-625A Advanced Satellite Modem

MN-CDM625A

Appendix M

Revision 3

M–6

• In an ACM mode, no overhead channel was defined by DVB-S2 for the purpose of

reporting SNR metrics to the originating end. It has been left to individual equipment

manufacturers to decide their own method. This illustrates that all ACM systems, DVB-S2 or

not, are proprietary. In addition, it implies that additional bandwidth needs to be consumed

for the SNR reporting, and this is not accounted for in the code rate.

M.6 VersaFEC ACM

VersaFEC, in concert with a novel ACM approach, addresses some of the shortcomings of DVB-

S2 outlined above.

VersaFEC covers a family of 18 short-block LDPC ModCods, specifically designed for low latency

and ACM applications. However, the VersaFEC codes are equally well suited to Constant Coding

and Modulation (CCM) applications.

The requirements for an ACM system that approaches the minimum possible latency are:

• The shortest possible LDPC codes that give performance at or very close to DVB-S2, in order

to minimize latency, and which do not use interleaving.

• Design of the encoder to further reduce latency to the minimum possible.

• A constant number of symbols per block, to reduce the demodulator and decoder

complexity, and significantly, also reduces latency in the ACM case.

• The elimination of the need for pilot symbols for carrier tracking at low SNR by substitution

of other modulation techniques. This further reduces the complexity of the demodulator.

• Reduction in the number of ModCods to further reduce complexity.

• The inclusion, at the physical layer, of an overhead channel to permit the reporting of SNR

metrics back to the originating end. Note that this does not have to be enabled or disabled –

it is part of the fundamental frame structure of VersaFEC ACM, and has been take into

account in the code rate.

The family of VersaFEC short-block LDPC codes is presented in Table M-1. The modulation types

include BPSK, QPSK, 8-QAM, and 16-QAM. This table shows that, in order to maintain a constant

number of symbols per block, the block size in bits (data + parity) must necessarily change,

depending on both the modulation type (which affects the number of bits per symbol) and the

code rate. For VersaFEC, the block size varies between 2k and 8.2k bits. At worst, therefore, the

VersaFEC codes are 50% shorter than the ‘short’ DVB-S2 codes.