| Title | Approaching Speed-of-light Distortionless Communication for On-chip Interconnect |
| Author | Haikun Zhu, Rui Shi (University of California, San Diego, United States), Hongyu Chen (Synopsys Inc., United States), *Chung-Kuan Cheng (University of California, San Diego, United States) |
| Page | pp. 684 - 689 |
| Keyword | global interconnect, transmission line, distortionless, speed-of-light, serial link |
| Abstract | We extend the Surfliner on-chip distortionless transmission line scheme and provide more details for the implementation issues. Surfliner seeks to approach distortionless transmission by intentionally adding shunt resistors between the signal line and the ground. In theory if we distributively make the shunt conductance G=RC/L, there will be no distortion at the receiver end and the signal propagates at the speed of light. We show the feasibility and advantages of this shunt resistor scheme by a real design case of single-ended microstrip line in 0.10$\mu$m technology. The simulation results indicate we can achieve near perfect signaling of 10 Gbps data over a 10 mm serial link, yet no pre-emphasis/equalization or other special techniques are needed. Guidelines for determining the optimal value and spacing of the shunt resistors are also provided. |
| PDF file |
| Title | Transition Skew Coding: A Power and Area Efficient Encoding Technique for Global On-Chip Interconnects |
| Author | *Charbel Akl, Magdy Bayoumi (University of Louisiana at Lafayette, United States) |
| Page | pp. 696 - 701 |
| Keyword | encoding, repeaters |
| Abstract | Global signaling is becoming more and more challenging as technology scales down toward the deep submicron. We propose a new bus encoding technique, transition skew coding, that targets many of the global interconnects challenges such as crosstalk, peak energy and current, switching and leakage power, repeaters area, wiring area, signal integrity and noise. Simulations are done on different bus lengths using a 90 nm library. Repeaters sizing and spacing are optimized, and the proposed encoded bus is compared against a standard bus and a bus with shields inserted between every two wires. The encoding and decoding latencies are also analyzed. Simulations show that transition skew coding is efficient in terms of energy and area with low encoding and decoding latency overhead. |
| PDF file |
| Title | Predicting the Performance and Reliability of Carbon Nanotube Bundles for On-Chip Interconnect |
| Author | *Arthur Nieuwoudt, Mosin Mondal, Yehia Massoud (Rice University, United States) |
| Page | pp. 708 - 713 |
| Keyword | carbon nanotube, modeling, alternative interconnect technologies |
| Abstract | Single-walled carbon nanotube (SWCNT) bundles have the potential to provide an attractive solution for the resistivity and electromigration problems faced by traditional copper interconnect. In this paper, we evaluate the performance and reliability of nanotube bundles for future VLSI applications. We develop a scalable equivalent circuit model that captures the statistical distribution of metallic nanotubes while accurately incorporating recent experimental and theoretical results on inductance, contact resistance, and ohmic resistance. Leveraging the circuit model, we examine the performance and reliability of nanotube bundles including inductive effects. The results indicate that SWCNT interconnect bundles can provide significant improvement in delay over copper interconnect depending on the bundle geometry and process technology. |
| PDF file |