DVB DOCUMENT A025 GuideLine for Implementation and Use of the Common Interface for DVB Decoder Applications
标签: Implementation DVB GuideLine for
上传时间: 2015-07-03
上传用户:xsnjzljj
Net Frame Code GuideLine
上传时间: 2014-01-02
上传用户:Zxcvbnm
VESA DisplayPort Interoperability GuideLine Version 1.1 January 28, 2008
标签: Interoperability DisplayPort GuideLine January
上传时间: 2016-04-02
上传用户:372825274
LAYOUT REPORT .............. 1 目錄.................. 1 1. PCB LAYOUT 術語解釋(TERMS)......... 2 2. Test Point : ATE 測試點供工廠ICT 測試治具使用............ 2 3. 基準點 (光學點) -for SMD:........... 4 4. 標記 (LABEL ING)......... 5 5. VIA HOLE PAD................. 5 6. PCB Layer 排列方式...... 5 7.零件佈置注意事項 (PLACEMENT NOTES)............... 5 8. PCB LAYOUT 設計............ 6 9. Transmission Line ( 傳輸線 )..... 8 10.General GuideLines – 跨Plane.. 8 11. General GuideLines – 繞線....... 9 12. General GuideLines – Damping Resistor. 10 13. General GuideLines - RJ45 to Transformer................. 10 14. Clock Routing GuideLine........... 12 15. OSC & CRYSTAL GuideLine........... 12 16. CPU
上传时间: 2013-12-20
上传用户:康郎
LAYOUT REPORT .............. 1 目錄.................. 1 1. PCB LAYOUT 術語解釋(TERMS)......... 2 2. Test Point : ATE 測試點供工廠ICT 測試治具使用............ 2 3. 基準點 (光學點) -for SMD:........... 4 4. 標記 (LABEL ING)......... 5 5. VIA HOLE PAD................. 5 6. PCB Layer 排列方式...... 5 7.零件佈置注意事項 (PLACEMENT NOTES)............... 5 8. PCB LAYOUT 設計............ 6 9. Transmission Line ( 傳輸線 )..... 8 10.General GuideLines – 跨Plane.. 8 11. General GuideLines – 繞線....... 9 12. General GuideLines – Damping Resistor. 10 13. General GuideLines - RJ45 to Transformer................. 10 14. Clock Routing GuideLine........... 12 15. OSC & CRYSTAL GuideLine........... 12 16. CPU
上传时间: 2013-10-29
上传用户:1234xhb
Abstract—In the future communication applications, users may obtain their messages that have different importance levels distributively from several available sources, such as distributed storage or even devices belonging to other users. This scenario is the best modeled by the multilevel diversity coding systems (MDCS). To achieve perfect (information-theoretic) secrecy against wiretap channels, this paper investigates the fundamental limits on the secure rate region of the asymmetric MDCS (AMDCS), which include the symmetric case as a special case. Threshold perfect secrecy is added to the AMDCS model. The eavesdropper may have access to any one but not more than one subset of the channels but know nothing about the sources, as long as the size of the subset is not above the security level. The question of whether superposition (source separation) coding is optimal for such an AMDCS with threshold perfect secrecy is answered. A class of secure AMDCS (S-AMDCS) with an arbitrary number of encoders is solved, and it is shown that linear codes are optimal for this class of instances. However, in contrast with the secure symmetric MDCS, superposition is shown to be not optimal for S-AMDCS in general. In addition, necessary conditions on the existence of a secrecy key are determined as a design GuideLine.
标签: Fundamental Limits Secure Class on of
上传时间: 2020-01-04
上传用户:kddlas
GuideLine Suggestion for High-Speed I/O ESD Protection
标签: ESD_Suggestion_for_HighSpeed_IO_K er
上传时间: 2020-06-05
上传用户:shancjb