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�1�� Scope�
�2�� References�
�3�� Terms and definitions��
�4�� Abbreviations and acronyms��
�5�� Conventions��
�6�� Aspects common to both frame-mapped and transparent-mapped modes of GFP�
�� 6.1�� Basic signal structure for GFP client frames
�� 6.2�� GFP control frames��
�� 6.3�� GFP frame-level functions��
�� 6.4�� Management communications frame (MCF)��
�7�� Payload-specific aspects for frame-mapped GFP�
�� 7.1�� Ethernet MAC payload��
�� 7.2�� HDLC/PPP payload��
�� 7.3�� Fibre channel payload via FC-BBW_SONET��
�� 7.4�� Error handling in frame-mapped GFP��
�� 7.5�� IEEE 802.17 RPR payload
�� 7.6�� Direct mapping of MPLS into GFP-F frames��
�� 7.7�� Direct mapping of IP and OSI network layer PDUs into GFP-F frames��
�� 7.8�� DVB ASI payload�
�� 7.9�� Transporting Ethernet 10GBASE-R payloads with preamble transparency and ordered set information��
�8�� Payload-specific aspects for transparent mapping of 8B/10B clients into GFP��
�� 8.1�� Common aspects of GFP-T��
�� 8.2�� Running disparity in 64B/65B codes��
�� 8.3�� Client-specific signal fail aspects��
�� 8.4�� Synchronous full-rate transparent mapping of 8B/10B clients into GFP��
�� 8.5�� Asynchronous (full- or sub-rate) mapping of 8B/10B clients into GFP��
Appendix I � Examples of functional models for GFP applications��
Appendix II � Sample GFP payload types��
Appendix III � GFP frame example illustrating transmission order and CRC calculation��
�� III.1�� Worked example for a GFP-F frame��
�� III.2�� Worked example for a GFP-T superblock CRC calculation
Appendix IV � Number of superblocks used in transparent GFP��
�� IV.1�� Introduction��
�� IV.2�� Calculation of "spare" bandwidth��
�� IV.3�� Calculation of available bandwidth for CMFs and MCFs��
Appendix V � Bandwidth requirements for Ethernet transport��
Appendix VI � Ethernet physical layer defect signals��

CONTENTS