Samsung Electronics Begins World's First DRAM Mass Production Using 60nm-Class Technology.SEOUL, Korea -- Samsung Electronics Samsung Electronics (SEC, Hangul:삼성전자; KSE: 005930, KSE: 005935, LSE: SMSN, LSE: SMSD) is a South Korean multinational corporation and the world's largest and leading electronics and information technology company. Co., Ltd., the world leader in advanced memory technology, announced today that it has begun mass producing the industry's first 1Gigabit (Gb) DDR (Double Data Rate) Refers to an SDRAM memory chip that increases performance by doubling the effective data rate of the frontside bus. For more details, see SDRAM. DDR - Double Data Rate Random Access Memory 2 DRAM (dynamic random access memory Dynamic random access memory (DRAM) is a type of random access memory that stores each bit of data in a separate capacitor within an integrated circuit. Since real capacitors leak charge, the information eventually fades unless the capacitor charge is refreshed periodically. ) using 60 nanometer (nm)-class process technology. Use of the new process technology is a significant milestone in that it increases production efficiency by 40 percent over the 80nm process technology deployed in DRAM fabrication fabrication (fab´rikā´sh  n),n the construction or making of a restoration. since early 2006, and offers twice the productivity of 90nm general process technology. Ample market availability of 1Gb DRAM will further increase the demand for large density DRAMs, especially as the new premium Vista operating system operating system (OS) Software that controls the operation of a computer, directs the input and output of data, keeps track of files, and controls the processing of computer programs. imposes a DRAM requirement of at least 1Gigabyte (GB). Samsung's extensive line up of 60nm 1Gb DRAM-based modules includes 512MB, 1GB and 2GB densities supporting either 667Mbps or 800Mbps speeds with customer validation. Samsung anticipates such a high degree of receptivity to the 60nm process that it should drive greater demand for 1Gb DRAM chips in the near future over today's mainstream density of 512Mb. Samsung's continuous technology migration below 90nm has relied heavily on the company's extensive use of three-dimensional (3D) transistor technologies to build increasingly smaller chips, a fundamentally unique approach toward finer circuit designs and higher yields. One of the key technologies involved in the development of Samsung's 3D transistor is a recess channel array transistor (RCAT RCAT Resource Centre for Academic Technology RCAT Recess Channel Array Transistor RCAT Radio-Controlled Aerial Target RCAT Root Cause Analysis Team RCAT Ridgetown College of Agriculture Technology (Canada) ) that actually builds the DRAM cell three-dimensionally to minimize its size while increasing its density. Samsung's proprietary RCAT technology was first introduced at the 2003 VLSI VLSI: see integrated circuit. (1) (Very Large Scale Integration) Between 100,000 and one million transistors on a chip. See SSI, MSI, LSI and ULSI. (2) (VLSI Technology, Inc., Tempe, AZ, www.semiconductors. symposia. This new 3D transistor technology doubles the refresh cycle, which is critical for enabling efficient fabrication on a nanometer-scale. Samsung has been utilizing RCAT for DRAM fabrication from 90nm. This key 3D technology is expected to enable DRAM fabrication to 50nm and lower. In addition to its 60nm process technology innovation, Samsung's use of metal-insulator metal (MIM MIM Metal Injection Molding MIM Mendelian Inheritance in Man MIM Mobile Instant-Messaging MIM Man in the Middle MIM Multilateral Initiative on Malaria MIM Metal-Insulator-Metal MIM Master of International Management MIM Made in Mexico ) for its capacitors provides enhanced data storage in sub-70nm designs. Furthermore, the use of a recently-announced selective epitaxial growth (SEG n. 1. (Bot.) Sedge. 2. The gladen, and other species of Iris. 1. A castrated bull. ) technology provides for a broader electron channel, and optimizes the speed of each chip's electrons to reduce power consumption and enable higher performance. The 60nm 1Gb DDR2 DRAM, which was first developed by Samsung in 2005, is the latest in a long line of Samsung industry "firsts" in nano-scale DRAM advancements. This record of DRAM innovation stretches from the introduction of 150nm DRAM technology in 2000, to a yet-to-be-deployed 50nm process technology developed in October of last year. The 60nm process is expected to become the mainstream circuit technology for DRAM in 2008. In the first year of market availability alone, 60nm DRAM revenues are expected to reach US $2.3billion worldwide and further increase to US $32 billion by 2009. About Samsung Electronics Samsung Electronics Co., Ltd. is a global leader in semiconductor, telecommunication, digital media and digital convergence In the days of the first computers, transaction and company data were the first types of information digitized. Then came text, opening the world to word processing, followed by audio CDs and finally video. technologies with 2006 parent company sales of US$63.4 billion and net income of US$8.5 billion. Employing approximately 138,000 people in over 124 offices in 56 countries, the company consists of five main business units: Digital Media Business, LCD Business, Semiconductor Business, Telecommunication Network Business, and Digital Appliance Business. Recognized as one of the fastest growing global brands, Samsung Electronics is a leading producer of digital TVs, memory chips, mobile phones, and TFT-LCDs. For more information, please visit www.samsung.com. |
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