IEEE DRAFT 1394 : D8.0V2 JUL 95

Name: IEEE DRAFT 1394 : D8.0V2 JUL 95
Brand: IEEE

Superseded

HIGH PERFORMANCE SERIAL BUS

Superseded date

07-23-2013

Published date

01-12-2013

Publisher

Institute of Electrical & Electronics Engineers

Patent notice
Introduction
Table of Contents
List of Figures
List of Tables
1. Overview
1.1 Scope
1.2 References
1.3 Document organization
1.4 Serial Bus applications
1.4.1 Alternate bus
1.4.2 Low cost peripheral bus
1.4.3 Bus bridge
1.5 Service model
1.6 Document notation
1.6.1 Mechanical notation
1.6.2 Signal naming
1.6.3 Size notation
1.6.4 Numerical values
1.6.5 Packet formats
1.6.6 Register formats
1.6.7 C++ code notation
1.6.8 State machine notation
1.6.9 CSR, ROM, and field notation
1.6.10 Register specification format
1.6.11 Reserved registers and fields
1.6.12 Operation description priorities
1.7 Compliance
1.7.1 CSR Architecture compliance
1.7.2 Serial Bus physical layers
2. Definitions and Abbreviations
2.1 Conformance glossary
2.2 Technical glossary
3. Summary description (informative)
3.1 Node and module architectures
3.2 Topology
3.2.1 Cable environment
3.2.2 Backplane environment
3.3 Addressing
3.4 Protocol architecture
3.4.1 Data Transfer Services
3.5 Transaction layer
3.5.1 Transaction layer services
3.5.2 Lock subcommands
3.5.3 Subaction queue independence
3.6 Link layer
3.6.1 Link layer services
3.6.2 Link and transaction layer interactions
3.6.3 Asynchronous arbitration
3.6.4 Isochronous arbitration
3.7 Physical layer
3.7.1 Data bit transmission and reception
3.7.2 Fair arbitration
3.7.3 Cable physical layer (C-PHY)
3.7.4 Backplane physical layer (B-PHY)
3.8 Bus management
4. Cable physical layer specification
4.1 Cable physical layer services
4.1.1 Cable physical layer bus management services for
       the management layer
4.1.2 PHY layer arbitration services for the link layer
4.1.3 PHY layer data services for the link layer
4.2 Cable physical connection specification
4.2.1 Media attachment
4.2.2 Media signal interface
4.2.3 Media signal timing
4.3 Cable physical layer facilities
4.3.1 Coding
4.3.2 Cable physical layer signals
4.3.3 Cable physical layer line states
4.3.4 Cable physical layer packets
4.3.5 Cable physical layer timing constants
4.3.6 Gap timing
4.3.7 Cable physical layer node constants
4.3.8 Node variables
4.3.9 Port variables
4.4 Cable physical layer operation
4.4.1 Data transmission and reception
4.4.2 Cable environment arbitration
5. Backplane physical layer specification
5.1 Backplane physical layer services
5.1.1 Backplane physical layer bus management services
       for the management layer
5.1.2 PHY layer arbitration services for the link layer
5.1.3 PHY layer data services for the link layer
5.2 Backplane physical connection specification
5.2.1 Media attachment
5.2.2 Media signal interface
5.2.3 Media signal timing
5.2.4 Backplane physical layer timing
5.3 Backplane physical layer facilities
5.3.1 Coding
5.3.2 Backplane physical layer signals
5.3.3 Gap timing
5.3.4 Arbitration sequence
5.4 Backplane physical layer operation
5.4.1 Arbitration
5.4.2 Backplane environment packet transmission and
       reception
5.5 Backplane initialization and reset
5.5.1 Backplane PHY reset
5.5.2 Backplane PHY initialization
6. Link layer specification
6.1 Link layer services
6.1.1 Link layer bus management services for the
       node controller
6.1.2 Link layer asynchronous data services for the
       transaction layer
6.1.3 Link layer isochronous data services for application
6.2 Link layer facilities
6.2.1 Primary packets
6.2.2 Asynchronous packets
6.2.3 Isochronous packets
6.2.4 Primary packet components
6.2.5 Acknowledge packets
6.3 Link layer operation
6.3.1 Overview of link layer operation (informative)
6.3.2 cycle synch event
6.3.3 Details of link layer operation
6.4 Link layer reference code (informative)
7. Transaction layer specification
7.1 Transaction layer services
7.1.1 Transaction layer bus management services for Serial
       Bus management
7.1.2 Transaction layer data services for applications
       and bus management
7.2 Transaction facilities
7.2.1 Split transaction timer
7.2.2 Transaction retry limit
7.3 Transaction operation
7.3.1 Overview of transaction layer operations (informative)
7.3.2 Transaction completion definitions
7.3.3 Details of transaction layer operation
7.3.4 Transaction types
7.3.5 Retry protocols
7.4 CSR Architecture transactions mapped to Serial Bus
8. Serial Bus management summary
8.1 Serial Bus management summary
8.1.1 Node control
8.1.2 Isochronous resource manager (cable environment)
8.1.3 Isochronous resource manager (backplane environment)
8.1.4 Bus manager (cable environment)
8.2 Serial Bus management services
8.2.1 Serial Bus control request (SB_CONTROL.request)
8.2.2 Serial Bus control confirmation (SB_CONTROL.
       confirmation)
8.2.3 Serial Bus event indication (SB_EVENT.indication)
8.3 Serial Bus management facilities
8.3.1 Node capabilities taxonomy
8.3.2 Command and status registers
8.3.3 Serial Bus management variables
8.4 Serial Bus management operations
8.4.1 Bus configuration procedures (backplane environment)
8.4.2 Bus configuration procedures (cable environment)
8.4.3 Isochronous management (cable environment)
8.4.4 Power management (cable environment)
8.4.5 Speed management (cable environment)
8.4.6 Topology management (cable environment)
8.5 Bus configuration state machines (cable environment)
8.5.1 Candidate cycle master states
8.5.2 Candidate isochronous resource manager states
8.5.3 Candidate bus manager states
Annex A. Cable environment system properties (normative)
Annex B. External connector positive retention (normative)
Annex C. Internal device physical interface (normative)
Annex D. Backplane physical layer timing formulae
         (informative)
Annex E. Cable operation and implementation gap control
Annex F. Backplane physical implementation example
         (informative)
Annex G. Backplane isochronous resource manager selection
Annex H. Serial Bus configuration in the cable environment
         (informative)
Annex I. Socket P.C.B. terminal patterns and mounting
         (informative)
Annex J. PHY-Link interface specification (informative)
Annex K. Serial Bus cable test procedures (informative)
Annex L. Shielding effectiveness and transfer impedance
         testing (informative)
Numerous figures
Numerous tables

Specifies a high speed serial bus that integrates well with most IEEE standard 32 and 64 bit parallel buses as well as such non bus interconnects as the IEEE 1596 Scalable Coherent Interface. It is intended to provide a low cost interconnect between cards on the same backplane, cards on other backplanes, and external peripherals. The High Performance Serial Bus follows the IEEE 1212 Command and Status Register architecture.

DocumentType	Draft
PublisherName	Institute of Electrical & Electronics Engineers
Status	Superseded

CSA ISO/IEC 14776-362 : 2007	INFORMATION TECHNOLOGY - SMALL COMPUTER SYSTEM INTERFACE (SCSI) - PART 362: MULTIMEDIA COMMANDS-2 (MMC-2)
CSA ISO/IEC 14776-362 : 2007 : R2012	INFORMATION TECHNOLOGY - SMALL COMPUTER SYSTEM INTERFACE (SCSI) - PART 362: MULTIMEDIA COMMANDS-2 (MMC-2)
ISO/IEC 14776-362:2006	Information technology Small Computer System Interface (SCSI) Part 362: Multimedia commands-2 (MMC-2)
IEEE DRAFT 896.10 : D4.0 JUL 95	STANDARD FOR FUTUREBUS+ SPACEBORNE SYSTEMS PROFILE "S"
CAN/CSA-ISO/IEC 14776-362-07 (R2017)	Information Technology - Small Computer System Interface (SCSI) - Part 362: Multimedia Commands-2 (MMC-2) (Adopted ISO/IEC 14776-362:2006, first edition, 2006-04)
IEEE 1596 : 1992	SCALABLE COHERENT INTERFACE (SCI)

IEEE 896.2-1991	IEEE Standard Backplane Bus Specification for Multiprocessor Architectures: Futurebus+(R)
ISO/IEC 13213:1994	Information technology Microprocessor systems Control and Status Registers (CSR) Architecture for microcomputer buses
ISO/IEC 9899:2011	Information technology Programming languages C