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Summary form only given. Increasing power density of complex SoC's have made low-power a topic of interest in the industry. Power considerations in portable and wireless consumer devices have become a key part of many product specifications. Even for wired devices and other industry segments in which battery power has not traditionally been an issue, considerations of packaging, reliability, and cooling...
This paper presents modeling of manufacturing variability and body bias effect for subthreshold circuits based on measurement of a device array circuit in a 90 nm technology. The device array consists of P/NMOS transistors and ring oscillators. This work verifies the correlation between the variation model extracted from IV measurement results and oscillation frequencies, which means the transistor-level...
Ultra Low voltage operation has recently drawn significant attention due to its large potential energy savings. However, typical design practices used for super-threshold operation are not necessarily compatible with the low voltage regime. Here, radically different guidelines may be needed since existing process technologies have been optimized for super-threshold operation. We therefore study the...
The Post-Silicon Programmed Body-Biasing Platform is proposed to suppress device variability in the 45-nm CMOS technology era. The proposed platform measures device speed during post-fabrication testing. Then the fast die is marked so that the body-bias circuit turns on and reduces leakage current of the die that is selected and marked in a user application. Because the slow die around the speed specifications...
Clock jitter is generally considered undesirable but recent publications have shown that it can actually improve the timing margin. This paper investigates the "beneficial jitter" effect and presents an accurate analytical model which is verified with HSPICE. Based on our model, a phase-shifted clock distribution technique is proposed to enhance the beneficial jitter effect. By having an...
With the technology moving into the deep sub-100 nm region, the increase of leakage power consumption necessitates more aggressive power reduction techniques. Power gating is a promising technique. Our research emphasizes the virtual ground voltage (VVG) as the key to make critical design trade-offs for power gating. We develop an accurate model to estimate the dynamic VVG value of a circuit block...
This paper presents a novel technique to minimize the total power consumption of a synchronous linear pipeline circuit by exploiting extra slacks available in some stages of the pipeline. The key idea is to utilize soft-edge flip-flops to enable time borrowing between stages of a linear pipeline in order to provide the timing-critical stages with more time to complete their computations. Time borrowing,...
A problem inherent in designing power-gated circuits is the overhead of the state-retention storage required to preserve the circuit state in standby mode. Reducing the amount of retention storage is known to be the most influential factor in minimizing the loss of the benefit (i.e. power saving) by power-gating. In this paper, we address a new problem of high-level synthesis with the objective of...
We propose a parallel and randomized algorithm to solve the problem of discrete dual-Vt assignment combined with continuous gate sizing which is an important low power design technique in high performance domains. This combinatorial optimization problem is particularly difficult to solve on large-sized circuits. We first introduce a hybrid algorithm which combines the existing heuristics and convex...
Row-based power-gating has recently emerged as a meet-in-the-middle sleep transistor insertion paradigm between cell-level and block-level granularity, in which each layout row defines the unit of gating, and different rows can be clustered and share the same sleep transistor. Previous works, however, assume the availability of a single virtual ground voltage, thus making the decision of whether to...
Integrating circuits in the vertical direction can alleviate interconnect related problems and enable heterogeneous chips to be stacked in a single package with a small form factor. This paper addresses the power delivery issues in 3D chips revealing some interesting facts and design challenges. A multi-story power delivery technique that can reduce the worst case DC noise by 45% and lower the overhead...
Integrating photodiodes with logic and exploiting on-die interconnect capacitance for energy storage can enable new, low-cost energy harvesting wireless systems. To further explore the tradeoffs between optical efficiency and capacitive energy storage for integrated photodiodes, an array of photovoltaics with various diffractive storage capacitors was designed in TSMC's 90 nm CMOS technology. Transient...
A simple yet effective technique that aims at reducing the energy and latency overheads incurred during the wakeup period of MTCMOS circuits is presented in this paper. One or more high-Vth keepers are inserted in MTCMOS combinational logic to reduce the metastability time that causes excessive short circuit current during mode transition and to minimize spurious glitches at internal circuit nodes...
Time keeping and synchronization are important services for networked and embedded systems. High quality timing information allows embedded network nodes to provide accurate time-stamping, fast localization, efficient duty cycling schedules, and other basic but essential functions - all of which are required for low power operation. In this paper we present a new type of local clock source called...
In this research, we propose a novel approach for simultaneous optimization of power, crosstalk noise and delay via gate sizing, in the presence of scarce information about the distribution of the variations. The methodology uses the concepts of utility theory and risk minimization to identify a deterministic equivalent model of the stochastic problem, ensuring high levels of expected utilities of...
We present a novel power-aware yield enhancement design methodology and reconfiguration scheme for deep submicron SRAM designs. We show that with the continued trend of raising array supply to counter process variations, it is more effective to use a per-element selectable virtual power-supply scenario as opposed to single array supply with traditional redundancy schemes. The element can be a bank,...
Traditionally, spare rows/columns have been used in two ways: either to replace too leaky cells to reduce leakage, or to substitute faulty cells to improve yield. In contrast, we first choose a higher threshold voltage (Vth) and/or gate-oxide thickness (Tox) for SRAM transistors at design time to reduce leakage, and then substitute the resulting too slow cells by spare rows/columns. We show that due...
The reliability against transient faults poses a significant challenge due to technology scaling trends. Several circuit optimization techniques have been proposed in the literature for preventing soft errors in logic circuits. However, most approaches do not incorporate the effects of other design metrics like delay and power while optimizing the circuit for soft error protection. In this work, we...
As technology is aggressively scaled, nano-regime VLSI designs are becoming increasingly susceptible to process variations. Unlike pre-silicon optimization, post-silicon techniques can tune the individual die to better meet the power-delay constraints. This paper proposes a variation-aware methodology for the simultaneous gate sizing and clustering for post-silicon tuning with adaptive body biasing...
Two low-power Viterbi decoder (VD) architectures are presented in this paper. In the first, limited decision errors are introduced in the add-compare-select units (ACSUs) of a VD to reduce their critical path delays so that they can be operated at lower supply voltages in absence of timing errors. In the second one, we allow data-dependent timing errors which occur whenever a critical path in the...
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