• Journal of the Semiconductor & Display Technology
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• v.19 no.3
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• pp.118-123
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• 2020

In this paper, the design method of asynchronous nonvolatile memory module that can efficiently process and store large amounts of data without loss when the power turned off is proposed and implemented. PSRAM, which takes advantage of DRAM and SRAM, was used for data processing, and NAND flash memory was used for data storage and backup. The problem of a lot of signal interference due to the characteristics of memory devices was solved through PCB design using high-density integration technology. In addition, a boost circuit using the super capacitor of 0.47F was designed to supply sufficient power to the system during the time to back up data when the power is off. As a result, an asynchronous nonvolatile memory module was designed and implemented that guarantees reliability and stability and can semi-permanently store data for about 10 years. The proposed method solved the problem of frequent data loss in industrial sites and presented the possibility of commercialization by providing convenience to users and managers.

• The Transactions of the Korea Information Processing Society
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• v.5 no.11
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• pp.2980-2988
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• 1998

This paper describes the design of asynchronous adders based on carry selection and carry bypass techniques. The designs are faster than existing asynchronous adders which are based on ripple carry technique. It is caused by reducing the carry transfer time by using carry selection and carry bypass techniques. Also, the design uses tree structure to reduce the completion sensing time. The proposed adders are designed with CMOS domino logic and experimented with HSPICE simulator. Experimental results show that the proposed adders can be faster about 50% in average cases than previous ripple carry adders.

• Proceedings of the IEEK Conference
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• 1999.11a
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• pp.356-359
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• 1999

A high performance 16bit multiplier for asynchronous systems has been designed using asynchronous design methodology. The 4-radix modified Booth algorithm, TSPC (true single phase clocking) registers, and modified 4-2 counters using DPTL (differential pass transistor logic) have been used in our multiplier. It is implemented in 0.65${\mu}{\textrm}{m}$ double-poly/double-metal CMOS technology by using 6616 transistors with core size of 1.4$\times$1.1$\textrm{mm}^2$. And our design results in a computation rate exceeding 60MHz at a supply voltage of 3.3V.

• The Transactions of the Korean Institute of Electrical Engineers
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• v.33 no.2
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• pp.47-55
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• 1984

This paper is concerned with a computer-aided state assignment, that is, coding race-free internal states of asynchronous sequential circuits, and a method for minimizing the combinational network of asynchronous sequential circuits. The FORTRAN version of the peoposed algorithm results in race-free state assignments and reduction of the number of connections and gates with near minimal hardware cost. Some examples are designed by the proposed computer program to illustrate the algorithm in this paper. Finally, results are compared with those of the other methods.

• The Journal of Korean Institute of Communications and Information Sciences
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• v.28 no.11A
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• pp.891-901
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• 2003

This paper presents low-power asynchronous barrel shifters for variable length encoders and decoders useful in portable applications using multimedia standards. Our approach is to create multi-level asynchronous barrel shifters optimized for the skewed shift control statistics often found in these codecs. For common shifts, data passes through one level, whereas for rare shifts, data passes though multiple levels. We compare our optimized designs with the straightforward asynchronous and synchronous designs. Both pre- and Post-layout HSPICE simulation results indicate that, compared to their synchronous counterparts, our designs provide over a 40% savings in average energy consumption for a given average performance.

• The Journal of Korean Institute of Communications and Information Sciences
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• v.39B no.12
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• pp.873-875
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• 2014

In this paper we describe an asynchronous MAC protocol with receiver-initiated duty cycling for energy-efficiency in wireless sensor networks(WSN). Legacy asynchronous MAC protocols, X-MAC and PW-MAC, has weaknesses which generates too many control packets and has data collision problem between multiple transmitters, respectively. Therefore, we propose a receiver-initiated asynchronous MAC protocol which generates control packets from transmitter to complement these disadvantages. Compared to the prior asynchronous duty cycling approaches of X-MAC and PW-MAC, the proposed protocol shows a improvement in energy-efficiency, throughput and latency from simulation results.

• Journal of the Institute of Electronics Engineers of Korea SC
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• v.46 no.4
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• pp.39-48
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• 2009

Asynchronous sequential machines, or clockless logic circuits, have several advantages over synchronous machines such as fast operation speed, low power consumption, etc. In this paper, we propose a novel robust controller for input/output asynchronous sequential machines with uncertain state transitions. Due to model uncertainties or inner failures, the state transition function of the considered asynchronous machine is not completely known. In this study, we present a formulation to model this kind of asynchronous machines ana using generalized reachability matrices, we address the condition for the existence of an appropriate controller such that the closed-loop behavior matches that of a prescribed model. Based on the previous research results, we sketch design procedure of the proposed controller and analyze the stable-state operation of the closed-loop system.

• Journal of the Institute of Electronics Engineers of Korea SD
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• v.40 no.5
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• pp.321-334
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• 2003

Globally-Asynchronous Locally-Synchronous (GALS) systems are worthy of notice as an adequate architecture for a large scaled chip design with guaranteeing easy designs and functional confidence. In this paper, we suggest an advanced structure of the interface unit which is indispensable for GALS systems by using stoppable clocks. The proposed interface unit is composed of a sender module and a receiver module. The sender module can carry out data transmission partially without the relation to an internal clock. We have designed it with 0.25${\mu}{\textrm}{m}$ standard cell library at the gate level and simulated its operation to show performance improvement. Finally, we constructed all example circuit with the interface unit and proved the correct operation of it.

• The Journal of Korean Institute of Communications and Information Sciences
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• v.39B no.2
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• pp.86-94
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• 2014

Optical packet switching (OPS) is being considered as one of the switching technologies for a future optical internet. For contention resolution in an optical packet switching (OPS) system, the wavelength dimension is generally used in combination with a fiber delay line (FDL) buffer. In this article, we propose a method to reduce the number of tunable wavelength converters (TWCs) by sharing TWCs for a cost-effective design of an asynchronous OPS system with a shared or an output FDL buffer. Asynchronous and variable-length packets are considered in the OPS system design. To investigate the number of TWCs needed for the OPS system, an algorithm is proposed, which searches for an available TWC and an unused internal wavelength, as well as an outgoing channel. This algorithm is applied to an OPS system with a shared or an output FDL buffer. Also, the number of internal wavelengths (i.e., the conversion range of the TWC) needed for an asynchronous OPS system is presented for cost reduction of the OPS system.

• Journal of the Institute of Electronics Engineers of Korea SD
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• v.37 no.9
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• pp.47-54
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• 2000

We designed asynchronous event logic library with 0.25um CMOS technology and interface chip for heterogeneous system with high-speed asynchronous FIFO operating at 1.6GHz. Optimized asynchronous standard cell layouts and Verilog models are designed for top-down design methodology. A Method for mitigating a design bottleneck when it comes to tolerate clock skew is described. This communication scheme using clock control circuits, which is used for the free of synchronization failures, is analyzed and implemented. With clock control circuit and FIFO, high-speed communication between synchronous modules operating at different clock frequencies or with asynchronous modules is performed. The core size of implemented high-speed 32bit-interface chip for heterogeneous system is about $1.1mm{\times}1.1mm$.