• Title/Summary/Keyword: Multiplexer-based Logic design

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Consideration of Don't-care Condition for Multiplexer-based Logic Design (For Application to Arduino-based Design Education) (다중화기 기반 논리 설계를 위한 무정의 조건의 고찰 (아두이노 설계 교육에의 활용을 위한))

  • Lee, Jae Min
    • Journal of Digital Contents Society
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    • v.18 no.5
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    • pp.881-888
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    • 2017
  • Logic design using multiplexer has been used as a useful method for design convenience and flexibility in structural digital system design. In this paper, we analyze the effect of don't care conditions on logic optimization in a multiplexer-based logic design, which was not discussed enough in the previous studies in multiplexer based logic design, and describe the use of don't care conditions for designing of a single multiplexer and multiple multiplexer-based logic design. Especially, the design method when the number of data input is not 2m (as the number of selection lines is m) is considered. We also describe how to apply the proposed technique to the digital logic design education in conjunction with microprocessor design using Arduino which is widely used in creative engineering education recently.

Design of LTPS TFT Current Mode Multiplexer and MUX-based Logic Gates

  • Jeong, Ju-Young;Hong, Moon-Pyo
    • Journal of Information Display
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    • v.9 no.3
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    • pp.1-7
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    • 2008
  • With the aim of creating a high-quality display system with value-added functions, we designed a current mode multiplexer for LTPS TFT devices. The multiplexers had less than 1 volt logic swing, and speed improvement was evident compared with that of conventional CMOS architecture. We refined the multiplexer to achieve a more stable current steering operation. By using the versatility of the multiplexer, a new NAND/AND and NOR/OR logic gates were designed through the simple modification of signal connections. Two micron LTPS TFT parameters were used during the HSPICE simulation of the circuits.

Multiple-Output Combinational Digital Logic Systems based on Decision Diagram (결정도에 기초한 다중출력조합디지털논리시스템)

  • Park Chun-Myoung
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.9 no.6
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    • pp.1288-1293
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    • 2005
  • This paper presents a design method for multiple-output combinational digital logic systems using time domain based on multiplexing(TDBM) and common multi-terminal extension decision diagrams(CMTEDD). The CMIEDDs represents extension valued multiple-output functions, while TDBM systems transmit several signals on a single lines. The proposed method can reduce the 1)hardware, 2)logic levels and 3)pins. In the logic system design, we use two types of decision diagrams(DDs), that is the common binary decision diagrams(CBDDs) and CMTEDDs. Also, we propose an algorithms to derive common multiple-terminal binary decision diagrams(CMTBDD) from CBDDs, and CMTEDDs from CMTBDDs. The CMTEDDs over CBDDs is more compactness in terms of number of non-terminal nodes, where the nodes for output selection variables are not included in the non-terminal nodes. In the logic design, each non-terminal nodes of an CBDDs and an CMTEDDs is realized by a multiplexer(MUX). In addition, we compare the proposed TDBM realization with the conventional one.

A Construction of the Efficiency Switching Function (효율적인 스위칭함수 구성에 관한 연구)

  • Park, Chun-Myoung
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2018.05a
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    • pp.470-471
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    • 2018
  • This paper presents a design method for combinational digital logic systems using time domain based multiplexing and common multi-terminal extension decision diagrams. The proposed method can reduce the 1)hardware, 2)logic levels and 3)pins. In the logic system design, we use two types of decision diagrams(DDs), that is the common binary decision diagrams and CMTEDDs. Also, we propose an algorithms to derive common multiple-terminal binary decision diagrams from CBDDs, and CMTEDDs from CMTBDDs. The CMTEDDs over CBDDs is more compactness in terms of number of non-terminal nodes, where the nodes for output selection variables are not included in the non-terminal nodes. In the logic design, each non-terminal nodes of an CBDDs and an CMTEDDs is realized by a multiplexer(MUX). In addition, we compare the proposed TDBM realization with the conventional one.

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Constructing the Switching Function using Decision Diagram (결정다이아그램을 사용한 스위칭함수 구성)

  • Park, Chun-Myoung
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2011.10a
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    • pp.687-688
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    • 2011
  • This paper presents a design method for combinational digital logic systems using time domain based multiplexing(TDBM) and common multi-terminal extension decision diagrams(CMTEDD). The proposed method can reduce the 1)hardware, 2)logic levels and 3)pins. In the logic system design, we use two types of decision diagrams(DDs), that is the common binary decision diagrams(CBDDs) and CMTEDDs. Also, we propose an algorithms to derive common multiple-terminal binary decision diagrams(CMTBDD) from CBDDs, and CMTEDDs from CMTBDDs. The CMTEDDs over CBDDs is more compactness in terms of number of non-terminal nodes, where the nodes for output selection variables are not included in the non-terminal nodes. In the logic design, each non-terminal nodes of an CBDDs and an CMTEDDs is realized by a multiplexer(MUX). In addition, we compare the proposed TDBM realization with the conventional one.

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A Construction Theory of Multiple-Valued Logic Fuctions on GF($(2^m)$ by Bit Code Assignment (Bit Code할당에 의한 GF($(2^m)$상의 다치논리함수 구성 이론)

  • Kim, Heung Soo;Park, Chun Myoung
    • Journal of the Korean Institute of Telematics and Electronics
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    • v.23 no.3
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    • pp.295-308
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    • 1986
  • This paper presents a method of constructing multiple-valued logic functions based on Galois field. The proposed algorithm assigns all elements in GF(2**m) to bit codes that are easily converted binary. We have constructed an adder and a multiplier using a multiplexer after bit code operation (addition, multiplication) that is performed among elements on GF(2**m) obtained from the algorithm. In constructing a generalized multiple-valued logic functions, states are first minimized with a state-transition diagram, and then the circuits using PLA widely used in VLSI design for single and multiple input-output are realized.

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Design and implementation of a base station modulator ASIC for CDMA cellular system (CDMA 이동통신 시스템용 기지국 변조기 ASIC 설계 및 구현)

  • Kang, In;Hyun, Jin-Il;Cha, Jin-Jong;Kim, Kyung-Soo
    • Journal of the Korean Institute of Telematics and Electronics C
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    • v.34C no.2
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    • pp.1-11
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    • 1997
  • We developed a base station modulator ASIC for CDMA digital cellular system. In CDMA digital cellular system, the modulation is performed by convolutional encoding and QPSK with spread spectrum. The function blocks of base station modulator are CRC, convolutional encoder, interleaver pseudo-moise scrambler, power control bit puncturing, walsh cover, QPSK, gain controller, combiner and multiplexer. Each function block was designed by the logic synthesis of VHDL codes. The VHDL code was described at register transfer level and the size of code is about 8,000 lines. The circuit simulation and logic simulation were performed by COMPASS tools. The chip (ES-C2212B CMB) contains 25,205 gates and 3 Kbit SRAM, and its chip size is 5.25 mm * 5,45 mm in 0.8 mm CMOS cell-based design technology. It is packaged in 68 pin PLCC and the power dissipation at 10MHz is 300 mW at 5V. The ASIC has been fully tested and successfully working on the CDMA base station system.

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