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For low power consumption which makes more than doubles a battery life, the charge-recycling system by reuse the energy between the two or more CPUs and the task scheduling technique for high efficiency are proposed. In this architecture, CPUs are divided into upper and lower load groups, and electrical charges are shared among the stacked CPUs and a tank capacitor. To control divided loads, a high...
A charge-recycling circuit and system that reuses the energy between two or more stacked CPUs is proposed in order to double the life of a battery. In this architecture, CPUs are divided into upper and lower load groups, and electrical charges are shared among the stacked CPUs and a tank capacitor. Charges are temporarily stored in the tank capacitor and are then reused. To control divided loads,...
An LDPC decoder in 65nm CMOS targeting WPAN (IEEE 802.15.3c) is presented with measurement results. A modified-PCM based message permutation strategy with compatible data flow is proposed to solve the network problem raised by high parallelism LDPC decoding. Compared to the state-of-art, decoder chip achieves 17.7%, 33.5% and 49% improvements in chip density, gate count and energy efficiency, respectively.
In this paper, we introduce an LDPC decoder design for decoding length-672 code adopted in IEEE 802.15.3c standard. The proposed decoder features high performance in both data rate and power efficiency. A macro-layer level fully parallel layered decoding architecture is proposed to support the throughput requirement in the standard. The decoder takes only 4 clock cycles to process one decoding iteration...
A charge sharing clock scheme is proposed to feed a 5-stage double charge pump circuit. By reusing the charges in charging or discharging the parasitic capacitance during the pumping process, dynamic power loss is able to be reduced by nearly a half. Under 1V supply, simulation results show a maximum 10% efficiency increase, and the ripple noise is also reduced by a half comparing to the conventional...
A novel charge-recovery logic structure called Pulse Boost Logic (PBL) is proposed in this paper. PBL is a high-speed low-energy-dissipation charge-recovery logic with dual-rail evaluation tree structure. It is driven by 2-phase non-overlap clock, and requires no DC power supply. To demonstrate the performance of PBL structure, 4-bit counters designed with both PBL gates and conventional static CMOS...
The conventional SRAMs, namely four-transistor SRAM (4T) and six-transistor SRAM (6T), suffered from the external noise, because they have direct paths through bit-line(BL) to their storage nodes. This paper proposes seven-transistor (7T) SRAM which has no direct path through BL to the data storage nodes and has higher endurance against external noise. The proposed cell is composed of two separate...
Power dissipation performance of distributed differential oscillator (DDO) is investigated. The architecture of DDO and factors affecting performance are introduced. Power dissipation analysis with a physical model was implemented. The relationship between power dissipation performance and quality factor Q is discussed. Moreover, the result is compared with nonresonant clocking system to demonstrate...
SOI device is promised to be a mobile and wireless network applications as it has better potential of high speed, low operating voltage and Q-factor. Gate Body directly connected SOI MOSFET suppresses Sees historical effects and is promised technologies that let the logic circuitry work in ultra low voltage. Compared to Bulk-Si MOSFET, GBSOI can reduce its power supply voltage by 30%, its current...
SOI device has the better potential of high speed, low operating voltage and RF functions like as mobile and wireless network applications. Gate body directly connected SOI MOSFET without historical effects is one of the promised technologies that let the logic circuitry work in ultra low voltage. Compared to Bulk-Si MOSFET, GBSOI can reduce its power supply voltage by 30%, its current by 26% and...
In this paper, we propose two kinds of implementations of the dual port MRAM, one of which is for the read/write concurrent operation while another is for the additional simultaneous read operation. Compared with dual port SRAM, the dual port MRAM accompanied with smaller memory cell size will make high performance systems realized in the mobile/robotics field. A swing-less bit-line sensing (SLBS)...
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