| 036a | XD-US |
| 037b | eng |
| 077a | 37064350X Buchausg. u.d.T.: ‡Schwaderer, W. David, 1947 - : Introduction to Open Core Protocol |
| 087q | 978-1-4614-0102-5 |
| 100 | Schwaderer, W. David |
| 331 | Introduction to Open Core Protocol |
| 335 | Fastpath to System-on-Chip Design |
| 410 | New York, NY |
| 412 | Springer New York |
| 425 | 2012 |
| 425a | 2012 |
| 433 | Online-Ressource (XV, 165 p. 57 illus, digital) |
| 451b | SpringerLink. Bücher |
| 501 | Description based upon print version of record |
| 517 | Introduction to Open Core Protocol; Preface; About the author; Contents; Chapter 1: In the Beginning…There Were No Standards; 1.1 Edward Orange Wildman Whitehouse's Career Move; 1.1.1 Semiconductor Night; 1.1.2 Semiconductor Dawn; 1.2 The Tyranny of Numbers; 1.2.1 Integrated Circuit Conception; 1.2.2 Integrated Circuit Reception; 1.2.3 Mark Twain Meets William Ford Gibson; 1.3 Introducing the Open Core Protocol™ (OCP); 1.3.1 OCP Interfaces; 1.4 OCP Wires to Transactions; 1.4.1 Point-to-Point Synchronous Interface; 1.4.2 Bus Independence; 1.4.3 Commands; 1.4.4 Address/Data; 1.4.5 Pipelining. 1.4.6 Independent Response1.4.7 Burst; 1.4.8 In-band Information; 1.4.9 Tags; 1.4.10 Threads; 1.4.11 Threads and Connections; 1.4.12 Interrupts, Errors, and Other Sideband Signaling; 1.5 George Santayana's Parting Warning; Chapter 2: OCP Training Wheels; 2.1 Simplistic OCP Write; 2.2 The OCP RTL Con fi guration File; 2.3 Deriving the OCP Clock; 2.4 Derived OCP Clock Advantages; 2.5 Clock Cycle Signal Timing; 2.6 OCP Commands; Chapter 3: OCP Write Operations; 3.1 Posted Write Illustrating SCmndAccept Request Handshake Command Pacing; 3.1.1 Sequence Description by Time Point. 3.2 Non-Posted Write with Response Enabled3.2.1 Sequence Description by Time Point; 3.3 Non-posted Write with Commit Response; 3.3.1 Sequence Description by Time Point; 3.4 Posted Write with the Datahandshake Extension; 3.4.1 Sequence Description by Time Point; Chapter 4: OCP Signals and Signal Groupings; 4.1 OCP Signals; 4.2 The Five OCP Data fl ow Subgroupings; 4.2.1 Data fl ow Basic Signals; 4.2.2 Data fl ow Simple Extensions; Chapter 5: Basic Signal Burst Extensions; 5.1 Burst Extensions Overview; 5.2 Simple Precise Posted Write Burst Example; 5.2.1 Sequence Description by Time Point. 5.3 OCP Single-Request/Multiple-Data Burst Write Example5.3.1 Sequence Description by Time Point; 5.4 Burst Address Sequences; 5.5 Address Sequences; 5.6 Burst Length, Precise, and Imprecise Burst Guidelines; 5.6.1 Constant Burst Signals; 5.6.2 Atomicity; 5.6.3 Single Request/Multiple Data Bursts (Packets); 5.6.4 MReqLast, MDataLast, SRespLast; 5.6.5 MReqRowLast, MDataRowLast, SRespRowLast; 5.6.6 Single Request, Multiple Data Bursts for Reads and Writes; 5.6.7 Unit of Atomicity; 5.6.8 Burst Framing with All Transfer Phases; Chapter 6: Read Timing Diagrams; 6.1 Simple Read Transfer. 6.1.1 Sequence Description by Time Point6.2 Request Handshake and Separate Response; 6.2.1 Sequence Description by Time Point; 6.3 Non-pipelined Multiple Read Sequence; 6.3.1 Sequence Description by Time Point; 6.4 Pipelined Multiple Read Requests and Responses; 6.4.1 Sequence Description by Time Point; 6.5 Read Response Accept; 6.5.1 Sequence Description by Time Point; 6.6 Incrementing Precise Burst Read; 6.6.1 Sequence Description by Time Point; 6.7 Incrementing Imprecise Burst Read; 6.7.1 Sequence Description by Time Point; 6.8 Precise Wrapping Burst Read. 6.8.1 Sequence Description by Time Point |
| 527 | Buchausg. u.d.T.: ‡Schwaderer, W. David, 1947 - : Introduction to Open Core Protocol |
| 540a | ISBN 978-1-4614-0103-2 |
| 540a | ISBN 1-280-79465-8 ebk |
| 540a | ISBN 978-1-280-79465-0 MyiLibrary |
| 700 | |TJFC |
| 700 | |TEC008010 |
| 700b | |621.3815 |
| 700b | |621.38152 |
| 700c | |TK7888.4 |
| 750 | This book introduces Open Core Protocol (OCP) not as a conventional hardware communications protocol but as a meta-protocol: a means for describing and capturing the communications requirements of an IP core, and mapping them to a specific set of signals with known semantics. Readers will learn the capabilities of OCP as a semiconductor hardware interface specification that allows different System-On-Chip (SoC) cores to communicate. The OCP methodology presented enables intellectual property designers to design core interfaces in standard ways. This facilitates reusing OCP-compliant cores across multiple SoC designs which, in turn, drastically reduces design times, support costs, and overall cost for electronics/SoCs. |
| 902s | 215926528 System-on-Chip |
| 902s | 209101636 Schnittstelle |
| 902s | 209600527 Kommunikationsprotokoll |
| 012 | 366281801 |
| 081 | Schwaderer, W. David: Introduction to Open Core Protocol |
| 100 | Springer E-Book |
| 125a | Elektronischer Volltext - Campuslizenz |
| 655e | $uhttp://dx.doi.org/10.1007/978-1-4614-0103-2 |
