Browsing School of Microelectronic Engineering (FYP) by Author "Norina Idris (Advisor)"

Now showing items 1-6 of 6

    • 16-Bits Carry Look-Ahead Adder as a High Speed Adder 

      Normala Muhd. Hussain (Universiti Malaysia PerlisSchool of Microelectronic Engineering, 2007-05)
      This paper put emphasis on designing a modified carry look-ahead adder (CLA) to acquire a high speed carry look ahead in seeing as speed is the significant characteristics to a Central Processor Unit. After some historical ...

    • 16-Bits High Speed Carry Select Adder 

      Nur Syuhada Muhammad Khariri (Universiti Malaysia PerlisSchool of Microelectronic Engineering, 2007-03)
      This report presents the design, performance evaluation of two design of 16-bit carry select adder. The layout for the high speed 16-bits carry-select adder was present in this report. The comparison of both designs is to ...

    • 8-bits X 8-bits modified Booth 1’s complement multiplier 

      Norafiza Salehan (Universiti Malaysia PerlisSchool of Microelectronic Engineering, 2007-05)
      With advances in technology, many researchers have tried and are trying to design multipliers which offers either of following – high speed, low power consumption, regularity of layout and hence less area or even combination ...

    • Comparison of Speed on 5 Adder Architectures 

      Norina Mohd Yusoff (Universiti Malaysia PerlisSchool of Microelectronic Engineering, 2007-05)
      Adders are some of the most critical data path circuits in CPU to perform data processing. The faster the adder, the better it performs data processing. The project presents a novel of comparison analysis on speed of ...

    • High speed 8-bits x 8-bits Wallace Tree multiplier 

      Tajul Hamimi Harun (Universiti Malaysia PerlisSchool of Microelectronic Engineering, 2007-05)
      This final year project (FYP) is to analyze the design of Wallace Tree multiplier. For simplicity, unsigned operands are chosen and main focus on the short word widths commonly used in most applications: an 8-bit multiplier. ...

    • High speed six operands 16-bits carry save adder 

      Awatif Hashim (School of Microelectronic Engineering, 2007-03)
      Adders are commonly found in the critical path of many building blocks of microprocessors and digital signal processing chips. The most important for measuring the quality of adder designs in the past were propagation ...