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Neil Gunther, (born 15 August 1950) is a computer information systems researcher best known internationally for developing the open-source performance modeling software ''Pretty Damn Quick'' and developing the (Guerrilla approach ) to computer capacity planning and performance analysis. He has also been cited for his contributions to the theory of large transients in computer systems and packet networks, and his ( universal law ) of computational scalability.〔Microsoft developer blog comparing (Amdahl's law with Gunther's law ) (2009)〕〔Computer Measurement Group (Interview part 1 ) ( and part 2 ) (2009)〕〔Springer (author biography )〕〔Oracle (performance experts )〕〔La Trobe University (alumnus profile )〕〔(Interview ) with John C. Dvorak (1998)〕 Gunther is a Senior Member of both the Association for Computing Machinery (ACM) and the Institute of Electrical and Electronics Engineers (IEEE), as well as a member of the American Mathematical Society (AMS), American Physical Society (APS), Computer Measurement Group (CMG) and ACM SIGMETRICS. He is currently focused on developing quantum information system technologies. ==Biography== Gunther is an Australian of German and Scots ancestry, born in Melbourne on 15 August 1950. He attended Preston East Primary School from 1955 to 1956, and Balwyn North Primary School from 1956 until 1962. For his tenth birthday, Gunther received a copy of the now famous book entitled ''The Golden Book of Chemistry Experiments'' from an older cousin. Inspired by the book, he started working on various experiments, making use of various chemicals that could be found around in his house. After he spilled some potassium permanganate solution on his bedroom carpet his mother confined him to an alcove in the garage which he turned into a small laboratory, replete with industrial chemicals and second-hand laboratory glassware. Gunther was interested in finding out how things like detergents and oils were composed by ''cracking'' them in his fractionating column. He took particular interest in mixing paints for his art classes, as well as his chemistry classes in Balwyn High School. His father, being the Superintendent of Melbourne's electrical power station, borrowed an organic chemistry text from the chemists in the quality control laboratory. This ultimately led to an intense interest in synthesizing Azo dyes. At around age 14, Gunther attempted to predict the color of azo dyes based on the chromophore-auxochrome combination. Apart from drawing up empirical tables, this effort was largely unsuccessful due to his lack of knowledge of quantum theory. 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「Neil J. Gunther」の詳細全文を読む スポンサード リンク
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