Downloads: 115
Case Studies | Electronics & Communication Engineering | India | Volume 4 Issue 4, April 2015
A New Methodology for Reducing Switching Activity in Serial Links of SoC
Binny P. Yohannan | Ajeesh A.V. [2]
Abstract: As technology advances, the number of on-chip module will increase. Long and multi-bit parallel buses between these modules may cause several problems such as skew, cross-talk, wiring difficulty, and large area. Serial communication has many advantages over multi-bit parallel communication. Multiplexing parallel buses into a serial link enables an improvement in terms of reducing interconnect area and cross-talk, but it may increase the overall switching activity factor. Therefore, an efficient coding method that reduces the switching activity is an important issue in serial interconnects design. Most existing coding techniques in serial links like Bus-Invert coding and Transition Inversion Coding (TIC) need an additional bit for indicating the encoded data. This extra bit not only increases the number of transmitted bits, but also increases the transitions and switching activity. The new coding technique called Embedded Transition Inversion (ETI) coding is used for low switching activity in serial links. It uses the phase difference between the clock and the encoded data to avoid the problem of an extra indication bit.
Keywords: System-on-chip SOC, Coding Techniques, Serial Links, Switching activity, Phase detector
Edition: Volume 4 Issue 4, April 2015,
Pages: 1391 - 1395
Similar Articles with Keyword 'Coding Techniques'
Downloads: 104
Research Paper, Electronics & Communication Engineering, India, Volume 5 Issue 3, March 2016
Pages: 2240 - 2243Implementation of Data Encoding Techniques for Reducing Area, Power Consumption in Network-on-Chip for LDPC Applications
Vijaykumar Jadhav | K. Sujata
Downloads: 107
Review Papers, Electronics & Communication Engineering, India, Volume 4 Issue 11, November 2015
Pages: 2162 - 2166A Review of Embedded Base Power Management Unit
Utsava Khare [2] | Megha Gupta [3]