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title[4] = "Processors on an Intel 45nm Hafnium-based High-k Metal Gate ''Penryn'' Wafer photographed with a dime. Using an entirely new transistor formula, the processors incorporate 410 million transistors for each dual core chip, and 820 million for each quad core chip.";
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title[5] = "Processors on an Intel 45nm Hafnium-based High-k Metal Gate ''Penryn'' Wafer photographed with a penny. Using an entirely new transistor formula, the processors incorporate 410 million transistors for each dual core chip, and 820 million for each quad core chip.";
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title[6] = "Processors on an Intel 45nm Hafnium-based High-k Metal Gate ''Penryn'' Wafer photographed with a penny. Using an entirely new transistor formula, the processors incorporate 410 million transistors for each dual core chip, and 820 million for each quad core chip.";
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title[7] = "Processors on an Intel 45nm Hafnium-based High-k Metal Gate ''Penryn'' Wafer photographed with an original Intel Pentium processor die. Using an entirely new transistor formula, the new processors incorporate 410 million transistors for each dual core chip, and 820 million for each quad core chip. The original Intel Pentium Processor only has 3.1 million transistors.";
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title[8] = "Processors on an Intel 45nm Hafnium-based High-k Metal Gate ''Penryn'' Wafer photographed with a pin. Using an entirely new transistor formula, the processors incorporate 410 million transistors for each dual core chip, and 820 million for each quad core chip.";
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title[9] = "Processors on an Intel 45nm Hafnium-based High-k Metal Gate ''Penryn'' Wafer photographed with a stamp. Using an entirely new transistor formula, the processors incorporate 410 million transistors for each dual core chip, and 820 million for each quad core chip.";
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title[10] = "Processors on an Intel 45nm Hafnium-based High-k Metal Gate ''Penryn'' Wafer photographed with a stamp. Using an entirely new transistor formula, the processors incorporate 410 million transistors for each dual core chip, and 820 million for each quad core chip.";
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title[11] = "Processors on an Intel 45nm Hafnium-based High-k Metal Gate ''Penryn'' Wafer photographed with a toothpick. Using an entirely new transistor formula, the processors incorporate 410 million transistors for each dual core chip, and 820 million for each quad core chip.";
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title[12] = "Processors on an Intel 45nm Hafnium-based High-k Metal Gate ''Penryn'' Wafer photographed with paper clips. Using an entirely new transistor formula, the processors incorporate 410 million transistors for each dual core chip, and 820 million for each quad core chip.";
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title[13] = "Processors on an Intel 45nm Hafnium-based High-k Metal Gate ''Penryn'' Wafer photographed with a pencil. Using an entirely new transistor formula, the processors incorporate 410 million transistors for each dual core chip, and 820 million for each quad core chip.";
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title[14] = "Processors on an Intel 45nm Hafnium-based High-k Metal Gate ''Penryn'' Wafer photographed with thumb tacks. Using an entirely new transistor formula, the processors incorporate 410 million transistors for each dual core chip, and 820 million for each quad core chip.";
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title[15] = "Processors on an Intel 45nm Hafnium-based High-k Metal Gate ''Penryn'' Wafer photographed with a button. Using an entirely new transistor formula, the processors incorporate 410 million transistors for each dual core chip, and 820 million for each quad core chip.";
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title[16] = "Processors using Intel 45nm Hafnium-based High-k Metal Gate transistor technology. The first transistor radio had 4 transistors. Using an entirely new transistor formula, the processor incorporate 410 million transistors for each dual core chip, and 820 million for each quad core chip.";
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title[17] = "Processors using Intel 45nm Hafnium-based High-k Metal Gate transistor technology. 30 Million such transistors fit on the head of a pin. Using an entirely new transistor formula, the processor incorporate 410 million transistors for each dual core chip, and 820 million for each quad core chip.";
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imgarr[18] = new Image();
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title[18] = "Transistors have shrunk in size with a factor 222 since the Intel 4004 chip.";
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title[19] = "";
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title[20] = "An Intel manufacturing technician uses a scanner to start the very first 45nm production lot of 300mm wafers inside of Fab 32, Intel's first high-volume 45nm chip factory in Chandler, Ariz.";
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title[21] = "A front opening unified pod (or ''FOUP'') is used to transport the first 45nm production lot of 300mm wafers through Fab 32, Intel's first high-volume 45nm chip factory in Chandler, Ariz.";
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title[22] = "Intel's 45nm processors are based on Intel's groundbreaking transistors with Hafnium-based high-k metal gate silicon technology, the biggest change to how transistors are made in 40 years";
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title[23] = "Intel's 45nm processors are based on Intel's groundbreaking transistors with Hafnium-based high-k metal gate silicon technology, the biggest change to how transistors are made in 40 years";
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title[24] = "Intel 45nm processor die";
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title[25] = "Intel 45nm dual-core processor die";
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title[26] = "Intel 45nm quad-core processor die";
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imgarr[27] = new Image();
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title[27] = "Michele Lambrech and Sarah Leahey enjoy sunflowers, courtesy of Intel. Intel handed out sunflowers in New York's Times Square to mark the introduction of its first lead-free processors. Sunflowers have the ability to pull lead from soil.";
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title[28] = "Michele Lambrech and Sarah Leahey enjoy sunflowers, courtesy of Intel. Intel handed out sunflowers in New York's Times Square to mark the introduction of its first lead-free processors. Sunflowers have the ability to pull lead from soil.";
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title[29] = "Michele Lambrech and Sarah Leahey enjoy sunflowers, courtesy of Intel. Intel handed out sunflowers in New York's Times Square to mark the introduction of its first lead-free processors. Sunflowers have the ability to pull lead from soil.";
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title[30] = "Michele Lambrech and Sarah Leahey enjoy sunflowers, courtesy of Intel. Intel handed out sunflowers in New York's Times Square to mark the introduction of its first lead-free processors. Sunflowers have the ability to pull lead from soil.";
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title[31] = "Paul Otellini, president and CEO of Intel Corp., announces Intel's new Hafnium-based 45-nanometer microprocessor, project-named Penryn, at a news conference, November 12, 2007, in San Francisco.";
aidx[31] = "31";

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title[32] = "Intel Corp. executives (L-R) Dadi Perlmutter, senior vice president and general manager of Mobility Group; Sean Maloney, executive vice president and general manager of sales and marketing; and William Holt, senior vice president of Technology and Manufacturing Group, smile during the announcement of Intel's new Hafnium-based 45-nanometer microprocessor, project-named Penryn, at a news conference, November 12, 2007, in San Francisco.";
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title[33] = "Intel Corp. executives (L-R) Dadi Perlmutter, senior vice president and general manager of Mobility Group; Sean Maloney, executive vice president and general manager of sales and marketing; and William Holt, senior vice president of Technology and Manufacturing Group, smile during the announcement of Intel's new Hafnium-based 45-nanometer microprocessor, project-named Penryn, at a news conference, November 12, 2007, in San Francisco.";
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title[34] = "Reporters chat with Intel Corp. executives after the announcement of Intel's new Hafnium-based 45-nanometer microprocessor, project-named Penryn, at a news conference, November 12, 2007, in San Francisco.";
aidx[34] = "34";

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title[35] = "45nm processor wafer";
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title[36] = "The first transistor radio had four transistors – Intel’s new chip has 410 million (dual-core) / 820 million (quad-core)";
aidx[36] = "36";

imgarr[37] = new Image();
imgarr[37].src = "images/t37.jpg";
title[37] = "A transistor acts like a light switch – switching on and off 300 billion times per second.";
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title[38] = "";
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