Growth through Innovation
Our innovations help fuel Micron’s growth and spark countless possibilities in technology. Our products are used in nearly every electronic device available today that make computing faster, communications more efficient, energy greener, and so much more.
2011
Intel and Micron announce first 128GB 20nm NAND Flash
Micron introduces industry’s broadest portfolio of LRDIMMs
Samsung and Micron team up to launch Hybrid Memory Cube Consortium
Micron introduces RealSSD™ P400e MLC Enterprise SSD
Micron launches RealSSD™ C400 Self-Encrypting SSD
Micron’s RLDRAM 3 is selected for Alcatel-Lucent’s industry-first 400Gb-capable chipset
Micron launches RealSSD™ P320h PCI Express (PCIe) SSD
Micron announces 20nm NAND process technology
Micron launches Product Longevity Program (PLP)
Micron debuts Hybrid Memory Cube technology
2010
Intel and Micron introduce 25-nanometer NAND
Micron and Nanya introduce 42-nanometer DRAM
Intel and Micron are first to sample 3-bit-per-cell NAND Flash memory on industry-leading 25-nanometer silicon process technology.
Micron introduces RealSSD P300 solid-state drive (SSD)
2009
Intel and Micron develop a new 3-bit-per-cell multi-level cell (MLC) NAND technology
Micron delivers RealSSD™ C300 Solid-State Drives
2008
Micron continues leadership in energy-efficient memory designs with new low-voltage DDR3 and higher-density DDR2 parts.
Intel and Micron are the first to deliver a sub-40 nanometer NAND Flash memory device.
Micron introduces next-generation RealSSD™ solid state drives for enterprise server and notebook applications.
Micron collaborates with Sun Microsystems to extend lifespan of flash-based storage and achieves one million write cycles.
Intel and Micron move into mass production with 34 nanometer NAND Flash.
Infineon and Micron develop next-generation data storage solution for HD-SIM cards and collaborate to push HD-SIM card capacity beyond 128MB.
2007
Micron opens a new manufacturing facility in China.
Micron reduces data center power consumption with new family of energy-efficient products.
Micron introduces RealSSD™ family of solid state drives.
2006
Micron introduces the industry's first NAND Flash memory device built on 50 nanometer process technology.
Micron introduces the world's first 8-megapixel image sensor on a 1/2.5-inch optical format (based on a 1.75-micron pixel design).
Micron introduces the world's densest server memory module (16-gigabyte).
Micron announces development of a 1.4-micron pixel image sensor design.
Micron begins shipping 8-gigabit and 4-gigabit NAND Flash devices, ideal for MP3, USB drive, and flash card applications.
Micron expands assembly and test facility in Singapore and effectively doubles its capacity.
Micron introduces Osmium™ packaging technology.
Micron receives #1 ranking in the semiconductor industry in iplQ's 2006 Patent Scorecard for the fifth consecutive year.
2005
Micron introduces the industry's fastest 1.8V flash memory for mobile applications.
Micron introduces a family of Mobile LPDRAM devices that provide low standby power and improved stackability.
Micron introduces Endur-IC™ technology, which delivers low power consumption, increased reliability, and an overall robustness required for mobile applications.
2004
Micron ships its first production 90nm, 2-gigabit NAND Flash memory products.
2003
Micron delivers the industry's first 4-gigabyte DDR SDRAM registered dual in-line memory module (DIMM) to Intel using the Company's 1-gigabyte DDR SDRAM manufactured on the 0.11µm process.
Micron introduces the 1.3-megapixel CMOS image sensor, which achieves image quality comparable to CCD while taking advantage of the benefits of CMOS technology.
2002
Micron demonstrates the industry’s first 1-gigabit double data rate (DDR) SDRAM components manufactured on 0.11µm process technology.
2000
Micron establishes test operations in Lehi, Utah, and opens a module assembly and testing operation in the United Kingdom.
1999
Crucial Technology launches its direct memory upgrade business in the United Kingdom.
Micron opens the UK Design Centre to support Micron’s research and development efforts, including the development of embedded products.
1997
Dell Computer announces it has received 256-megabit DRAM samples from Micron.
1996
Micron creates Crucial Technology, a division to market and sell memory upgrades to end-users.
ZEOS International, Ltd., Micron Computer, Inc., and Micron Custom Manufacturing Services, Inc. (MCMS) merge to become Micron Electronics, Inc.
1995
A site near Lehi, Utah, is selected for the new manufacturing complex.
1993
Micron begins a $60 million expansion project.
1992
Sampling begins for the 16-megabit DRAM.
1991
A new test facility is completed.
Micron begins the transition to the 4-megabit DRAM.
Micron creates Edge Technology, Inc., (a precursor to Micron Electronics) to manufacture memory-intensive personal computers at competitive prices.
1990
A second assembly facility is completed.
1989
Major portions of a $250 million expansion project, including a third fabrication facility, are completed.
1988
Micron introduces the 256K video RAM, 16K, 64K, and 256K fast static RAM, and add-in memory products assembled by Micron's Memory Applications Group (MAG).
1987
Micron introduces the 1-megabit DRAM.
1984
Micron's 256K DRAM is introduced.
A second fabrication plant, central utilities plant, and an assembly and test facility are constructed.
1983
First "shrink" of Micron’s 64K DRAM die is completed.
First assembly and test facility is completed.
1981
First fabrication facility is completed.
First 64K DRAM product is shipped.
1980
Ground is broken for a 50,000-square-foot wafer fabrication plant on 200 acres in Boise.
1979
Engineers finalize design for a 64K DRAM.
1978
Micron Technology, Inc., is headquartered in Boise, Idaho, and incorporated under the laws of the state of Idaho.
Growth over the Years
Over the course of Micron’s business history, we’ve grown through technology innovations, key partnerships and strategic acquisitions. All these milestones have made us who we are today – one of the world’s leading semiconductor companies.
2010
Origin and Micron Establish Joint Venture to Develop Photovoltaic Technology.
Intel and Micron Introduce 25-nanometer NAND.
Micron and Nanya introduce 42-nanometer DRAM.
Micron increases scale and broadens its product portfolio with the acquisition of Numonyx B.V. from Intel, STMicroelectronics, N.V. and Francisco Partners.
Micron Foundation celebrates 10th anniversary of summer Chip Camp for junior high school students.
Intel and Micron first to sample 3-bit-per-cell NAND Flash memory on industry-leading 25-nanometer silicon process technology.
Micron introduces RealSSD P300 solid-state drive (SSD)
2009
U.S. technology leaders, including Micron’s Chairman and CEO Steve Appleton, meet with President Obama in support of an Economic Recovery Package.
Micron phases out 200mm wafer manufacturing operations in Boise, closing the longest running memory fab in the world (1981-2009).
Micron wins prestigious Semiconductor Insight Awards for DRAM and NAND Flash technology innovations.
Micron acquires Displaytech, Inc., and introduces a new single-chip microdisplay panel.
Micron sells Aptina Imaging Corporation to Riverwood Capital and TPG Capital.
Intel and Micron develop a new 3-bit-per-cell (3bpc) multi-level cell (MLC) NAND technology
Micron delivers RealSSD™ C300 Solid-State Drives.
Micron transfers its stock exchange listing from the NYSE to the NASDAQ Global Select Market (NASDAQ: MU), effective Dec. 30, 2009.
2008
Micron launches Aptina Imaging: a CMOS image sensor division.
Micron continues leadership in energy-efficient memory designs with new low-voltage DDR3 and higher-density DDR2 parts.
Micron and Nanya sign an agreement to create MeiYa Technology Corporation, a new DRAM joint venture.
Intel and Micron are the first to deliver a sub-40 nanometer NAND Flash memory device.
Micron introduces next-generation RealSSD™ solid state drives for enterprise server and notebook applications.
Micron expands partnership with Nanya by acquiring Qimonda AG's stake in Inotera Memories, Inc.
Micron collaborates with Sun Microsystems to extend lifespan of flash-based storage and achieves one million write cycles.
Intel and Micron move into mass production with 34nm NAND Flash.
Infineon and Micron develop next-generation data storage solution for HD-SIM cards and collaborate to push HD-SIM card capacity beyond 128MB.
2007
U.S. President Bush recognizes Micron Technology for helping grow the economy through continued investment.
Micron opens a new manufacturing facility in China.
Micron reduces data center power consumption with new Aspen Memory family of energy-efficient products.
Micron Technology is named 2007 Best-in-Class Supplier by Sun.
CMP's Semiconductor Insights recognizes Micron's 78 nanometer 1 gigabit DDR3 as the Most Innovative DRAM.
Micron introduces RealSSD™ family of solid state drives.
2006
Micron introduces the industry's first NAND Flash memory device built on 50 nanometer process technology.
Micron introduces the world's first 8-megapixel image sensor on a 1/2.5-inch optical format (based on a 1.75-micron pixel design).
Micron introduces the world's densest server memory module (16-gigabyte).
Micron announces development of a 1.4-micron pixel image sensor design.
Micron begins shipping 8-gigabit and 4-gigabit NAND Flash devices, ideal for MP3, USB drive, and Flash card applications.
Micron secures the leadership position in digital image sensor products with 40 percent market share.
Micron enters into joint-venture partnership with Intel, creating IM Flash Technologies to manufacture NAND Flash memory.
Micron acquires Lexar Media to expand NAND Flash memory portfolio.
Micron expands assembly and test facility in Singapore and effectively doubles its capacity.
Micron introduces Osmium™ packaging technology.
Micron receives #1 ranking in the semiconductor industry in iplQ's 2006 Patent Scorecard for the fifth consecutive year.
Micron partners with Photronics on a leading-edge MP Mask Technology Center to supply photomasks for high-density, low-power chips.
2005
Micron introduces the industry's fastest 1.8V flash memory for mobile applications.
Micron introduces a family of Mobile LPDRAM devices that provide low standby power and improved stackability.
Micron introduces Endur-IC™ technology, which delivers low power consumption, increased reliability, and an overall robustness required for mobile applications.
Micron emerges as the number one provider of CMOS image sensors for camera phones, capturing more than 30 percent of the market share.
Micron and Intel announce their agreement to form a new company—IM Flash Technologies—to manufacture NAND Flash memory.
Micron's Boise manufacturing facility earns an award from the Pacific Northwest section of the American Water Works Association for "Innovation and Commitment to Water Conservation."
Micron’s DDR2 memory wins the prestigious AnandTech Editor’s Choice Award for providing the best performance and value.
2004
Semiconductor Insights, the leader in technical and patent analyses of ICs, awards Micron’s 6F2 cell architecture the 2004 INSIGHT Award for Most Innovative DRAM.
Micron ships its first production 90nm, 2-gigabit NAND Flash memory products.
2003
Micron delivers the industry's first 4-gigabyte DDR SDRAM registered dual in-line memory module (DIMM) to Intel using the Company's 1-gigabyte DDR SDRAM manufactured on the 0.11µm process.
Micron introduces the 1.3-megapixel CMOS image sensor, which achieves image quality comparable to CCD while taking advantage of the benefits of CMOS technology.
2002
Micron acquires Toshiba's commodity DRAM operations at Dominion Semiconductor, LLC, a subsidiary of Toshiba Corporation of Japan, located in Manassas, Virginia.
Micron demonstrates the industry’s first 1-gigabit double data rate (DDR) SDRAM components manufactured on 0.11µm process technology.
2001
KMT Semiconductor, Ltd., in Nishiwaki City, Japan, becomes a wholly-owned subsidiary with Micron’s purchase of Kobe Steel, Ltd.’s, interest in the joint-venture operation.
Micron is ranked #1 in the semiconductor industry by the Massachusetts Institute of Technology's Technology Review magazine in its Patent Scorecard 2001.
2000
The Micron Technology Foundation, Inc., is established to advance science and technology education and support community organizations.
Micron establishes test operations in Lehi, Utah, and opens a module assembly and testing operation in the United Kingdom.
A 2-for-1 stock split is announced.
1999
Crucial Technology launches its direct memory upgrade business in the United Kingdom.
Micron opens the UK Design Centre to support Micron’s research and development efforts, including the development of embedded products.
1998
Micron becomes one of the largest memory producers in the world with the purchase of Texas Instruments' worldwide memory operations.
Intel invests $500 million in Micron to support the development and supply of next-generation memory products.
1997
Micron becomes one of the first companies in the U.S. to attain ISO 14001 certification.
Micron receives the EPA’s Evergreen Award for environmental responsibility.
Dell Computer announces it has received 256-megabit DRAM samples from Micron.
1996
Micron creates Crucial Technology, a division to market and sell memory upgrades to end-users.
ZEOS International, Ltd., Micron Computer, Inc., and Micron Custom Manufacturing Services, Inc. (MCMS) merge to become Micron Electronics, Inc.
1995
A site near Lehi, Utah, is selected for the new manufacturing complex.
A 2-for-1 stock split is announced.
1994
A 5-for-2 stock split is announced.
Micron is listed on the Fortune 500 for the first time.
Steve Appleton is named President, Chairman, and CEO.
1993
Micron’s Fab III is named "Top U.S. Fab of 1993" by Semiconductor International magazine.
Micron begins a $60 million expansion project.
1992
Sampling begins for the 16-megabit DRAM.
1991
A new test facility is completed.
Micron begins the transition to the 4-megabit DRAM.
Micron creates Edge Technology, Inc., (a precursor to Micron Electronics) to manufacture memory-intensive personal computers at competitive prices.
1990
A second assembly facility is completed.
On November 30, Micron lists its common stock on the New York Stock Exchange, under the symbol MU.
1989
Major portions of a $250 million expansion project, including a third fabrication facility, are completed.
1988
Micron introduces the 256K video RAM, 16K, 64K, and 256K fast static RAM, and add-in memory products assembled by Micron's Memory Applications Group (MAG).
1987
Micron introduces the 1-megabit DRAM.
1986
The U.S. and Japan enter into a semiconductor trade agreement intended to establish fair market value prices for DRAM.
1985
Seven of America's leading semiconductor makers exit the DRAM business due to a drastic decline in prices for memory.
1984
Micron is reincorporated under the laws of the state of Delaware and becomes a publicly held company (NASDAQ: DRAM) in June 1984 with the sale of 2.1 million shares of common stock at an initial price of $14 per share.
Micron's 256K DRAM is introduced.
A second fabrication plant, central utilities plant, and an assembly and test facility are constructed.
1983
First "shrink" of Micron’s 64K DRAM die is completed.
First assembly and test facility is completed.
1981
First fabrication facility is completed.
First 64K DRAM product is shipped.
1980
Ground is broken for a 50,000-square-foot wafer fabrication plant on 200 acres in Boise.
1979
Engineers finalize design for a 64K DRAM.
1978
Micron Technology, Inc., is headquartered in Boise, Idaho, and incorporated under the laws of the State of Idaho.