PMC-Sierra manual PM5349 S/UNI-QUAD

codes are compared with the BIP-8 codes extracted from the following frame. Any differences indicate that a line layer bit error has occurred. Optionally the RLOP can be configured to count a maximum of only one BIP error per frame.

This block also extracts the line FEBE code from the third Z2 byte. The FEBE code is contained in bits 2 to 8 of the Z2 byte, and represents the number of line BIP-8 errors that were detected in the last frame by the far end. The FEBE code value has 25 legal values (0 to 24) for an STS-3c (STM-1) stream. Illegal values are interpreted as zero errors.

The Error Monitor Block accumulates B2 error events and FEBE events in two 20 bit saturating counter that can be read via the microprocessor interface. The contents of these counters may be transferred to internal holding registers by writing to any one of the counter addresses, or by using the TIP register bit feature. During a transfer, the counter value is latched and the counter is reset to 0 (or 1, if there is an outstanding event). Note, these counters should be polled at least once per second to avoid saturation.

The B2 error events counters optionally can be configured to accumulate only "word" errors. A B2 word error is defined as the occurrence of one or more B2 bit error events during a frame. The B2 error counter is incremented by one for each frame in which a B2 word error occurs.

In addition the FEBE events counters optionally can be configured to accumulate only "word" events. In STS-3c (STM-1) framing a FEBE word event is defined as the occurrence of one or more FEBE bit events during a frame. The FEBE event counter is incremented by one for each frame in which a FEBE event occurs.

10.4The Receive APS, Synchronization Extractor and Bit Error Monitor (RASE)

10.4.1 Automatic Protection Switch Control

The Automatic Protection Switch (APS) control block filters and captures the receive automatic protection switch channel bytes (K1 and K2) allowing them to be read via the RASE APS K1 Register and the RASE APS K2 Register. The bytes are filtered for three frames before being written to these registers. A protection switching byte failure alarm is declared when twelve successive frames have been received, where no three consecutive frames contain identical K1 bytes. The protection switching byte failure alarm is removed upon detection of three consecutive frames containing identical K1 bytes. The detection of invalid APS codes is done in software by polling the RASE APS K1 Register and the RASE APS K2 Register.