Altera Corporation

views updated Jun 11 2018

Altera Corporation

2610 Orchard Parkway
San Jose, California 95134
U.S.A.
Telephone: (408) 894-7000
Toll Free: (800) 767-3753
Fax: (408) 828-0463
Web site:http://www.altera.com

Public Company
Incorporated:
1984
Employees: 1,945
Sales: $1.38 billion (2000)
Stock Exchanges: NASDAQ
Ticker Symbol: ALTR
NAIC: 334413 Semiconductors & Related Device Manufacturing

Altera Corporation is a leading maker of high-density programmable logic devices (PLDs), based on metal-oxide semiconductor technology (CMOS). These logic chips are circuits used in a variety of devices to produce electrical signals. The specific technology associated with programmable logic chips requires less power than other chips, and is more efficient than custom logic chips, reducing development time and time-to-market. Alteras products are sold to makers of communications, computer, and industrial equipment. By 2000, Altera was selling its range of products to over 13,000 customers worldwide. The company has distributors in all European and major Asian markets; and by the end of 2000, exports accounted for 43 percent of Alteras sales. In addition to PLDs, Altera also creates software to help customers program standard integrated circuits.

Birth of the Erasable, Reprogrammable Chip

Altera began in 1983 under the guidance of Rodney Smitha British applications engineer and then Fairchild Semiconductor manager. Joining Smith as founding members were four others with considerable semiconductor industry experience: Robert Hartmann, James Sansbury, Paul Newhagen, and Michael Magranet. The name Altera was introduced in 1984, standing for the word alterable. That year, the company introduced its first generation of chips.

Alteras sales strategy, from the beginning, has been to offer a range of standard programmable parts for the IBM PC AT with inexpensive development tools, allowing customers to self-design and program custom logic circuits that meet their specific needs. This strategy was formulated to meet the industry need created by the delay associated with custom chips, due to the high percentage of silicon designs that require revision toward the end of the design cycle. With erasable, reprogrammable chips, revision can proceed immediately and repeatedly until all design bugs have been eliminated. A relationship with Intel Corp. began in August 1984, when the companies agreed to swap certain designs. In 1985, Intel began to market a group of Alteras logic microchips.

1988: Altera Goes Public

In 1988, Altera went public, and calendar sales for the year reached $38 million. The company also purchased a minority interest in Cypress Semiconductors wafer fabrication facility (fab), and introduced a new generation of chips. The company launched the industrys first erasable programmable logic device (EPLD), which provided a complete interface to the PS2s Micro Channel Bus. This new device allowed vendors to save time and board space. New EPLD programming softwareusable on IBM PC AT and compatible computersaccompanied the device. Later that year, Altera came forth with another innovation, MAX (multiple-array matrix), a new architecture for ultraviolet erasable programmable logic devices that doubled the timing and quadrupled the density of previous AND/OR EPLD arrays. The new devices presented up to 5,000 gates, system speeds of up to 40 MHz, and over 200,000 unique programmable elements. Because the structure of the new PLDs differed so much from previous PLD devices, which used the AND/OR architecture, Altera offered a tool-kit addition to quicken the learning curve for designers. The package, which was workable on IBM Personal Computer ATs and compatibles, contained a graphics-design editor, a design-processing engine, a timing simulator, and programming software modules, all controlled by a supervisor task-control module.

Alteras key competitor, Xilinx, introduced similar technology in 1988. No longer was Altera alone in its market niche of programmable logic. Alteras relationship with Xilinx would be a heated rivalry over the coming years.

Altera Expands into Japan

The U.S. semiconductor market during the 1980s was dominated by five large companies: Advanced Micro Devices, Inc., Intel Corp., Motorola, Inc., National Semiconductor Corp., and Texas Instruments, Inc. However, companies such as Altera and Xilinx were seen as formidable upstarts. Altera consistently ranked among the top five public semiconductor companies in the categories of net profits and gross margins (with margins reaching an impressive 60 percent). The company had been able to carve a niche due to specialization, focusing on top-notch design of PLDs, and spending its research and design budget on new product development. In 1989, sales rose 55 percent to $59 million, with $11 million net.

Looking primarily to Japan, Altera stepped up its overseas sales techniques in 1989. Lacking a Japanese office or distributor, the company hired two distributors with unique entrepreneurial approaches to aggressively promote Alteras product line to the Japanese market. The majority of Japanese sales were handled by JMC, a nine-year-old company led by Haruki Kamiyama. Kamiyama, the youngest member of a Japanese trade delegation that visited the U.S. around this time, was an entrepreneur committed to selling U.S. technology in Japan. Alteras other Japanese distributor, Paltek, focused primarily on market development. Because almost all semiconductor business in Japan goes through distributors (as opposed to the United States, where 75 percent of business is done directly with customers), these two distributors were key to Alteras 1989 growth in Japanese business. By 1990, 15 percent of the companys business was due to sales in Japan.

Sales in 1990 were $78.3 million, a 33 percent increase, with net income of $13.4 million. In June of that year, Altera made its first cash investment in a fab. The company invested $7.4 million in Cypress Semiconductors Round Rock, Texas facility. In exchange they received guaranteed IC production capability, a portion of the fabs CMOS capacity, access to next-generation products whenever they come on-line, and the right to purchase up to 20 percent of the fab over time. Cypress received the rights to Alteras next generation of MAX products (Altera was already producing Cypresss line of programmable logic devices, SRAMs, and other products). Altera President Rodney Smith told Computer Design that the production purchasing option with Cypress would save Altera approximately $30 million in construction costs over sharing production with another vendor. Although Altera had never before entered into this type of relationship with a fab, the company already had exchange and foundry agreements with Intel, Texas Instruments, and Sharp. These arrangements enabled the company to continue producing state-of-the-art chips with no production facilities.

Alteras partners also benefit from these relationships. For example, Texas Instruments used Alteras erasable programmable logic chip to design a compact, high-resolution video camera that was flexible enough to be used under different lighting systems, and for uses ranging from closed-circuit security to industrial inspection and monitoring systems. The chip proved a low-cost, high-yield option.

In 1991, another new chip generation was introduced. The Max 7000 family of ultraviolet-erasable programmable logic devices provided between 4,000 and 40,000 gates, increasing up to five times the capacity of previous high-density programmable chips. Sales surpassed the $100 million mark, reaching $106.9 million, with net income of $17.8 million.

Challenges During the 1990s

The year 1992 included the development of another new chip generation, as well as a series of challenges for Altera. The slowdown of Japanese business caused by overseas economic conditions, as well as competitive pricing by rival companies, led Altera to drop its chip prices. A drop in sales brought the company down to $101.5 million, with net income of only $11.5 million. The crisis was short-lived, however; sales in Japan increased by 87 percent in 1993. At this time, Alteras Japanese sales accounted for about 20 percent of business, with NEC serving as the companys largest customer, and Matsushita, Sony, Mitsubishi Electric, and Toshiba among the companys biggest clients. Alteras Japanese-bound chips primarily serviced two types of products: telecommunications equipment, including digital telephone exchanges and cellular telephone base stations; and professional audio visual equipment, such as portable camcorders. Also in 1992, a class action lawsuit was filed against Altera. It included some current and former officers and directors. The suit alleged violations of federal security laws, and was settled out of court in July 1994.

Overall 1993 revenues surged to $140.3 million, with an 84 percent increase in net income to $21.2 million. That year, the company also invented a system to protect delicate leads from ruin during burn-in and test processes, as well as after customer purchase. The device also reduced time-to-market by facilitating programming and prototyping. The company also developed two compatible sockets, one for use on PC boards and the other for programming EPLDs in carriers.

Company Perspectives:

Alteras mission is to be a preeminent supplier of programmable silicon solutions to the electronics industry through product leadership, excellent value, and superior quality and service.

As new products aged, manufacturing costs went down, and Altera was able to drop prices on its products over time. In 1993, such a discount was passed on to Alteras customers, with 30 percent price cuts on the volume-driven FLEX 8000 family of PLDs. At the end of 1993, Altera and Xilinx each introduced Pentium-compatible products, seeking to migrate programmable array logic (PAL) markets toward programmable logic device solutions. Alteras product targeted the high-density macrocell portion of the PLD business, while Xilinxs was aimed at the lowdensity segment. Altera also released the MAX 7000E family of complex PLDs, which featured architectural improvements of circuit performance of complex PLDs, as well as enhanced routability and usability features. At this time, Altera was the number three volume manufacturer of programmable CMOS logic devices, with a 15 percent market share. Ahead of Altera was Advanced Micro Devices, and in the number one position was competitor Xilinx, Inc., with a 24 percent share.

For Altera, 1994 was a year characterized by new product innovations and an ongoing effort to beat the competition with presence in new market segments. Seeking to gain a lead, Altera increased its market share to 20 percent in 1994 with the purchase of Intels PLD business, for about $50 million in cash and stock. In addition, the Intel acquisition delivered new customers and 15 new products to Altera. Further, Altera established itself as a programmable logic vendor, supporting Microsofts Windows NT operating system by releasing MAX PLUS II version 4.0, representing a shift to the fully 32-bit software environment. MAX PLUS II incorporates VHDL, a very-high-speed integrated circuit hardware description language synthesis. This VHDL standard was promoted when eleven companies joined to form Analog VHDL International (AVI), an industry group that helped develop the IEEE 1076.1 standard (the analog extension of VHDL.)

Altera Battles Xilinx

Altera also made a first step into the reconfigurable hardware products market in 1994. The company introduced a high-capacity programmable logic add-in board for PCsthe Re-configurable Interconnect Peripheral Processor (RIPP 10). This ISA bus board supports up to 100,000 gates of reconfigurable logic, allowing up to eight Altera FLEX 8188 devices. The company also put forth the industrys highest density single-die device, the 16,000-gate EPF51500 PLD, which was immediately followed by Xilinxs introduction of a 25,000-gate device. In April, the company introduced the largest capacity PLD on the market and the first off-the-shelf PLD/MCMthe 50,000-gate PLD multichip module PEF8050M, targeted at the ASIC prototyping market, as well as imaging applications and reconfigurable hardware products (RHPs).

Altera and Xilinx continued to race each other for introduction of industry-leading products. In June 1994, both companies came forth with products moving their devices to an unprecedented five-nanosecond pin-to-pin delay time range. Xilinx targeted new markets with faster speed devices, while Alteras EPM7032 was aimed at applications requiring logic integration in systems with next-generation microprocessors. In July, Altera made its first overtures to the military market, offering four PLDs as military standard compliant. Although defense spending was decreasing, a new emphasis on upgrading existing programs made design engineers receptive to off-the-shelf solutions to integrate system features into smaller board space, while keeping design costs low. As add-in card designers began to look toward PCI-compliant PLDs, Xilinx and Altera both claimed to introduce the industrys first programmable logic devices that were fully compliant with the Peripheral Component Interconnect (PCI) specification.

In August 1994, competitor Advanced Micro Devices filed a suit against Altera. AMD charged Altera with violating six of AMDs programmable logic device technology patents. Altera followed with a countersuit, stating that AMD infringed upon at least two, and perhaps as many as six, of Alteras PLD patents. The case would be decided against AMD in 1996. Another suit had been initiated against Altera by Xilinx in June 1993, also regarding patent infringement. Altera filed a separate suit against Xilinx and the case continued to boomerang with multiple countersuits probing the company patents over the next couple of years. In 1994, Xilinx continued to lead the CMOS PLD market with a 29 percent share, while Altera retained 18 percent, followed by AMD with 16 percent.

Another innovation in the MAX family, the MAX 9000 architecture, was introduced in October 1994. The 9000 family more than doubled the density of currently available EPLDs, reaching system speeds of up to 80Mhz, and increasing cell utilization. Sales in 1994 neared $200,000, with almost 50 percent of revenues derived from foreign sales. Data communications and telecom customers comprised about 44 percent of sales. The $58 million increase in sales over 1993 represented the largest one-year increase in Alteras history. International semiconductor shipments reached $100 billion, along with sales of CMOS PLDs (the newly preferred method for implementing logic design).

Key Dates:

1983:
Altera is founded by Robert Hartmann, Michael Magranet, Paul Newhagen, and Jim Sansbury; British applications engineer Rodney Smith joins later in 1983 as chairman, president, and CEO.
1988:
The company goes public; sales for the year reach $38 million.
1989:
Altera establishes a Japanese market for its products, which helps to push sales up 55 percent over the previous year.
1992:
A class action lawsuit is filed against Altera, alleging violations of Federal security laws.
1993:
Japanese sales account for 20 percent of Alteras business.
1994:
The class action lawsuit is settled out of court; Altera purchases Intels programmable logic device (PLD) business.
1996:
Altera brings to market the industrys largest capacity chipthe 10K 100, which has 10 million transistors.
2000:
Altera acquires Northwest Logic, a privately held company that provides system design services; John Daane replaces Rodney Smith as Alteras CEO; the company rolls out the Excalibaur family of embedded processor solutions.
2001:
Altera forges a partnership with Nuvation Labs Corporation, a leading engineering design firm.

In 1995, Altera came out with its MAX 9000 family of erasable PLDs. After a 30 percent drop in the price of the MAX 7000 family of erasable PLDs, the companys sales burst to more than twice the previous years, reaching an incredible $401.6 million, with $86.9 million in net income. By this time,

Altera had 881 employees, as compared to 370 just five years earlier. Also in 1995, Altera and Xilinx announced that their chips could service the lucrative $3 billion DSP semiconductor market, competing with dedicated and general-purpose DSP chips. Altera introduced Flexible Logic Element matrix (FLEX) 10,000, another programmable logic architecture which sent the market over the 100,000 gate barrier. The device was created with what Altera called a sea of programmable bits architecture, using the embedded/standard logic block combination.

The company put a new face on an old model in 1995, augmenting the three-year-old MAX 7000 line with the MAX 7000S family. This new line of CPLDs was based on a new 0.5 micron, triple-layer metal process developed with Alteras foundry partners. Since its introduction in 1992 when it generated $5 million in sales, the MAX 7000 had grown to an $80 million sales product by 1994, making it Alteras most successful CPLD line. Also in 1995, while industry reports bemoaned longer lead times in the field programmable gate array (FPGA) market, Altera announced that it had reduced lead times for two devicesthe 12,000-gate EPF81188A and 16,000-gate EPF81500Afrom 20 weeks to 10 weeks.

Altera and Xilinx once again were neck-and-neck in their announcements of industry landmark products, with Xilinxs introduction of the industrys fastest FPGA and Alteras announcement of the highest gate count FPGA shipped in volume.

Partnerships in the 1990s

Joining six intellectual property providers, Altera launched the Altera Megafunctions Partners Program (AMPP) in August 1995. Megafunctions are hardware description language (HDL)-based designs of system-level functions that may be compiled in MAX-PLUS II software and targeted to Alteras device architectures. This new alliance was charged with the development of synthesizable function blocks for Alteras PLDs. The five other partners in AMPPEureka Technology, CAST Inc., RAVIcad, Silicon Engineering, and Advacelwere provided with access to Alteras 21,000 design seats.

In another partnership development, Altera entered into a U.S. joint venture wafer fabrication site with foundry partner Taiwan Semiconductor Manufacturing Corp. (TSMC). The site was located in Camas, Washington. The agreement caused TSMC to displace Sharp as Alteras biggest wafer supplier. Later, the companies were joined by Analog Devices and Integrated Silicon Solutions, Inc., forming a joint venture company named WaferTech.

The industrys largest capacity chip was introduced by Altera in 1996. The 10K 100 capacity chip contains 10 million transistors. Also that year, the company unveiled MegaCore and OpenCore, software programs that allowed engineers to evaluate MegaCore functions prior to licensing them. A major industry slowdown in computers led to downsizing, and Altera was no exception. An oversupply of inventory and reduction of chip demand led to revenue decline during the years first quarter, and the company cut its workforce by 11 percent in June, eliminating about 100 positions. At the same time, the company authorized the repurchase of up to two million company shares.

Forging a new union, Altera joined Synopsis in a five-year agreement to jointly develop and market designer tools to support complex programmable logic devices (CPLDs). The partnership targeted two market segments: second wave designers changing to HDL-based designs for CPLDs and FPGAs, and gate array designers migrating to programmable logic for designs with gate densities of 100,000 or less.

Altera Sees a Bright Future

In 1983, Altera brought a new idea to the market, introducing the reprogrammable logic device. Today that innovation is a billion-dollar industry, bustling with competition. Alteras niche is, and always has been, its emphasis on new-product development, through an investment in research and development over production. By the latter half of the 1990s, the PLD market had swelled to over $2 billion in sales, and Altera stood as one of the industrys leaders due to the complexity of its chips. The companys success was fueled by its long-time emphasis on research and development over production, as well as its close customer relationships. At the end of 1998, Altera employed a staff of 1,208, and had $154 million in net income and $654 million in net revenue. Still, the competition was always knocking on Alteras door. In 1998, Altera held a wafer thin edge over its archrival Xilinx Inc.31.5 percent vs. 30.3 percentin the market for programmable logic chips, according to Dataquest Inc.

Altera and Xilinx have been in a turf war for years, and while their products may seem similar, the inter-workings of the two companies are reported to be vastly different. Altera is known in the industry as having a traditional, top-down management style, whereas Xilinx terms its management as consensus style, in which decision-making is decentralized and delegated to the rank and file as much as possible to encourage employee innovation. Alteras CEO Rodney Smith describes his management style as demanding but fair. We ask a lot of people, but we give a lot in return, Smith said in a 1999 article for the trade journal Electronic Business. He pointed that Altera offers a profit sharing and bonus plan, which is unique from others in that it is divided equally among employees regardless of position.

As the 1990s came to a close, a new competitor immerged from the pack to chase after Altera and Xilinxs dominance of the PLD marketplace. Lattice Semiconductor of Hillsboro, Oregon, became a third-place vendor with 20 percent of an estimated $2.5-billion PLD market by acquiring Vantis Corp. in April 1999. The three companies now accounted for 80 percent of all sales of PLDs, according to the market research firm IC Insights.

The year 2000 was marked by Alteras record profits and rapid-fire product introduction pace. Most significantly, Altera launched the Excalibur family of embedded processor solutions, which included a range of high-density programmable logic devices with embedded processors. Altera extolled this new product line as creating true system-on-a-programmable-chip (SOPC) solutions for its customers and giving the company a foundation for future growth. Also in 2000, John Daane took over Rodney Smiths role as Alteras CEO and president. Smith stayed on as the Chairman of the Board. In a letter to shareholders published in Alteras 2000 annual report, Daane regarded the year as a milestone for the companys long-term goal of capturing the SOPC market. He commented, Our real competition in this area includes other types of devices, particularly application-specific integrated circuits (ASICs) and application-specific standard products (ASSPs). With the products introduced during 2000, we can now offer a broader range of PLD-based solutions that were previously only possible with ASICs and ASSPs, while adding the benefits of programmabilityincreased flexibility, the ability to easily differentiate a design, and faster time-to-market. Profits and revenues continued to reach new heights in 2000. Revenue grew 65 percent to $1.38 billion, while income from continuing operations increased 76 percent to $394 million.

As the PLD industry grows and reshapes itself with each new technological advancement, Altera continues to look for ways to stay on top. In September of 2000, Altera acquired Northwest Logic, a privately held company specializing in telecommunications, data communications, and embedded processor systems design. Terms of the agreement were not disclosed, but the acquisition was herald by Altera as its latest strategy to invest in leading-edge capabilities that enhance its ability to provide solutions to customers. Continuing with that formula the following year, the company forged a partnership with Nuvation Labs Corporation. Altera is banking on Novations reputation as a leading Silicon Valley engineering design firm to give them an advantage over their competitors in offering faster time-to-market delivery of complex PLDs.

With the Semiconductor Industry Association predicting that the market for programmable logic devices will reach $4.5 billion by 2002, the competitive atmosphere for PLD market share is fierce. Established companies like Altera are always mindful of innovative upstarts that may bump them from their status as a top-tier semiconductor company. Altera will also continue to battle with old foes like Xilinx, which recently initiated another legal confrontation with Altera when it asked the U.S. International Trade Commission for an injunction that has the potential to jeopardize the U.S. sales of several major Altera products. Altera dismissed this latest round of legal maneuvering as saber rattling. To be successful in the long-term, Alteras goal is to create even more robust devices, while continuing its long-standing business practice of being fabless (not owning fabrication facilities) and serving three primary segments: communications, electronic data processing, and industrial applications.

Principal Competitors

Lattice Semiconductor; Xilinx.

Further Reading

Alteras new CEO approaches difficult position with optimism, Electronic Buyers News, December 11, 2000, pg. 18.

Altera buys Northwest Logic, Electronic Engineering Times, October 2, 2000, pg. 81.

Altera to Cut Employment 11%, Wall Street Journal, June 26, 1996, p. B6.

Altera 2Q Sales up 26%, Net 24%, Electronic News, July 22, 1996, p. 16.

Arnold, Bill, Slugfest, Electronic Business, August 25, 1999, pg. 76.

Case, John, Intimate Relations, Inc., August 1990, pp. 6472.

Cohen, Sarah, Washington Fab Venture Lures 2 More, Electronic News, July 1, 1996, p. 6.

DeTar, Jim, Altera, Partners Launch PLD Program, Electronic News, August 14, 1995, p. 49.

Keating, Peter, Coming off the Ropes, These Techs Pack Punch, Money, December 1996, pp. 7678.

Lammers, David, Next-gen architecture aims to take PLDs to system levelAltera plants stake in ASIC turf with Raphael, Electronic Engineering Times, August 31, 1998, pg. 18.

Lineback, J. Robert, Alteras Speedy Way to Tailor Add-Ons to IBMs PS2, Electronics, February 18, 1988, pp. 99102.

Mayer, John H., Altera Buys into Cypress Fab Capability, Computer Design, June 18, 1990, p. 34.

Matsumoto, Craig, Xilinx asks ITC to ban some Altera products, Electronic Engineering Times, December 11, 2000, pg. 4.

Rice, Valerie, Where They Are Now: 1987s Superstars Revisited, Electronic Business, September 4, 1989, pp. 3538.

, Breaking into Japan: Small U.S. Companies Find Success in a Demanding Market, Electronic Business, November 27, 1989, pp. 6062.

Souza, Crista, Chip Makers Tout Customizable Socs: Altera Rolls Out Mercury, a PLD Hybrid That Leaves Room for Integration, Electronic Buyers News, February 19, 2001, pg. 28.

Trial Prospects Grow for Xilinx, Altera, Electronic News, December 12, 1994, p. 65.

Wiegner, Kathleen K., Roll-Your-Own Chips, Forbes, October 1, 1990, pp. 242244.

Xilinx, Altera Tout Faster, Larger Programmable Devices, Electronic News, October 16, 1995, pp. 5253.

Heidi Feldman

update: Suzanne L. Rowe

Altera Corporation

views updated May 09 2018

Altera Corporation

2610 Orchard Parkway
San Jose, California 95134
U.S.A.
(408) 894-7000
Fax: (408) 828-0463
Web site: http://www.altera.com

Public Company
Incorporated:
1984
Employees: 923
Sales: $401.6 million (1995)
Stock Exchanges: NASDAQ
SICs: 3674 Semiconductors & Related Devices

Founded in 1983, Altera Corporation is a leading maker of high-density programmable logic devices (PLDs), based on metal-oxide semiconductor technology (CMOS). These logic chips are circuits used in a variety of devices to produce electrical signals. The specific technology associated with programmable logic chips requires less power than other chips, and is more efficient than custom logic chips, reducing development time and time-to-market. Alteras products are used by makers of communications, computer, and industrial equipment. In addition to PLDs, Altera also creates software to help customers program standard integrated circuits.

Rodney Smitha British applications engineer and then Fairchild Semiconductor managerfounded Altera in 1983 with $500,000 in seed money. Joining Smith as founding members were three others with considerable semiconductor industry experience: Robert Hartmann of Signetics Corp., James Sansbury of Hewlett-Packard Co., and Paul Newhagen of Fairchild Semiconductor Corp. The name Altera was introduced in 1984, standing for the word alterable. That year, the company introduced its first generation of chips.

Alteras sales strategy, from the beginning, has been to offer a range of standard programmable parts for the IBM PC AT with inexpensive development tools, allowing customers to self-design and program custom logic circuits that meet their specific needs. This strategy was formulated to meet the industry need created by the delay associated with custom chips, due to the high percentage of silicon designs that require revision toward the end of the design cycle. With erasable, reprogrammable chips, revision can proceed immediately and repeatedly until all design bugs have been eliminated. A relationship with Intel Corp. began in August 1984, when the companies agreed to swap certain designs. In 1985, Intel began to market a group of Alteras logic microchips.

1988: Altera Goes Public

In 1988, Altera went public, and calendar sales for the year reached $38 million. The company also purchased a minority interest in Cypress Semiconductors wafer fabrication facility (fab), and introduced a new generation of chips. The company launched the industrys first erasable programmable logic device (EPLD), which provided a complete interface to the PS/2s Micro Channel Bus. This new device allowed vendors to save time and board space. New EPLD programming softwareusable on IBM PC AT and compatible computersaccompanied the device. Later that year, Altera carne forth with another innovation, MAX (multiple-array matrix), a new architecture for ultra-violet-erasable programmable logic devices that doubled the timing and quadrupled the density of previous AND/OR EPLD arrays. The new devices presented up to 5,000 gates, system speeds of up to 40 MHz, and over 200,000 unique programmable elements. Because the structure of the new PLDs differed so much from previous PLD devices, which used the AND/OR architecture, Altera offered a tool-kit addition to quicken the learning curve for designers. The package, which was workable on IBM Personal Computer ATs and compatibles, contained a graphics-design editor, a design-processing engine, a timing simulator, and programming software modules, all controlled by a supervisor task-control module.

Alteras key competitor, Xilinx, introduced similar technology in 1988. No longer was Altera alone in its market niche of programmable logic. Alteras relationship with Xilinx would be a heated rivalry over the coming years.

The Semiconductor Industry During the 1980s

The U.S. semiconductor market at this time was dominated by five large companies: Advanced Micro Devices, Inc., Intel Corp., Motorola, Inc., National Semiconductor Corp., and Texas Instruments, Inc. However, companies such as Altera and Xilinx were seen as formidable upstarts. Altera consistently ranked among the top five public semiconductor companies in the categories of net profits and gross margins (with margins reaching an impressive 60 percent). The company had been able to carve a niche due to specialization, focusing on top-notch design of PLDs and spending its research and design budget on new product development. In 1989, sales rose 55 percent to $59 million, with $11 million net.

Looking primarily to Japan, Altera stepped up its overseas sales techniques in 1989. Lacking a Japanese office or distributor, the company hired two distributors with unique entrepreneurial approaches to aggressively promote Alteras product line to the Japanese market. The majority of Japanese sales were handled by JMC, a 9-year-old company led by Haruki Kamiyama. Kamiyama, the youngest member of a Japanese trade delegation that visited the U.S. around this time, was an entrepreneur committed to selling U.S. technology in Japan. Alteras other Japanese distributor, Paltek, focused primarily on market development, largely through the efforts of one representativea Japanese-speaking American whose previous career stints included teaching English, working as a circus clown, and acting in Japanese soap operas. Trained in physics, this representative was able to use language skills and technical know-how to design products and customer services, and to effectively communicate with Japanese markets. Because almost all semiconductor business in Japan goes through distributors (as opposed to the United States, where 75 percent of business is done directly with customers), these two distributors were key to Alteras 1989 growth in Japanese business. By 1990, 15 percent of the companys business was due to sales in Japan.

Sales in 1990 were $78.3 million, a 33 percent increase, with net income of $13.4 million. In June of that year, Altera made its first cash investment in a fab. The company invested $7.4 million in Cypress Semiconductors Round Rock, Texas facility, receiving in exchange guaranteed 1C production capability, a portion of the fabs CMOS capacity, access to next-generation products whenever they come on-line, and the right to purchase up to 20 percent of the fab over time. Cypress received the rights to Alteras next generation of MAX products (Altera was already producing Cypresss line of programmable logic devices, SRAMs, and other products). Altera President Rodney Smith told Computer Design that the production purchasing option with Cypress would save Altera approximately $30 million in construction costs over sharing production with another vendor. Although Altera had never before entered into this type of relationship with a fab, the company already had exchange and foundry agreements with Intel, Texas Instruments, and Sharp. These arrangements enabled the company to continue producing state-of-the-art chips with no production facilities.

Alteras partners also benefit from these relationships. For example, Texas Instruments used Alteras erasable programmable logic chip to design a compact, high-resolution video camera that was flexible enough to be used under different lighting systems, and for uses ranging from closed-circuit security to industrial inspection and monitoring systems. The chip proved a low-cost, high-yield option.

In 1991, another new chip generation was introduced. The Max 7000 family of ultraviolet-erasable programmable logic devices provided between 4,000 and 40,000 gates, increasing up to five times the capacity of previous high-density programmable chips. Sales surpassed the $100 million mark, reaching $106.9 million with net income of $17.8 million.

Challenges During the 1990s

The year 1992 included the development of another new chip generation, as well as a series of challenges for Altera. The slowdown of Japanese business caused by overseas economic conditions, as well as competitive pricing by rival companies, led Altera to drop its chip prices. A drop in sales brought the company down to $101.5 million with net income of only $11.5 million. The crisis was short-lived, however; sales in Japan increased by 87 percent in 1993. At this time, Alteras Japanese sales accounted for about 20 percent of business, with NEC serving as the companys largest customer, and Matsushita, Sony, Mitsubishi Electric, and Toshiba among the companys biggest clients. Alteras Japanese-bound chips primarily serviced two types of products: telecommunications equipment, including digital telephone exchanges and cellular telephone base stations; and professional audio visual equipment such as portable camcorders.

Also in 1992, a class action lawsuit was filed against Altera and some current and former officers and directors. The suit alleged violations of federal security laws, and was settled out of court in July 1994.

Company Perspectives:

Altera Corporation, founded in 1983, is a worldwide leader in high-performance, high-density programmable logic devices and associated computer aided engineering (CAE) logic development tools. Programmable logic devices are semiconductor chips that offer on-site programmability to customers. The chips are programmed with tools that run on personal computers or engineering workstations. User benefits include ease of use, lower risk, and fast time-to-market. The Company offers the broadest line of CMOS programmable logic devices that address high-speed, high density, and lower power applications. Altera products service a broad range of market areas, including telecommunications, data communications, computers, and industrial applications.

Overall 1993 revenues surged to $140.3 million, with an 84 percent increase in net income to $21.2 million. That year, the company also invented a system to protect delicate leads from ruin during burn-in and test processes, as well as after customer purchase. The device also reduced time-to-market by facilitating programming and prototyping. The company also developed two compatible sockets, one for use on PC boards and the other for programming EPLDs in carriers.

As new products aged, manufacturing costs went down and Altera was able to drop prices on its products over time. In 1993, such a discount was passed on to Alteras customers, with 30 percent price cuts on the volume-driven FLEX 8000 family of PLDs. At the end of 1993, Altera and Xilinx each introduced Pentium-compatible products, seeking to migrate programmable array logic (PAL) markets toward programmable logic device solutions. Alteras product targeted the high-density macrocell portion of the PLD business, while Xilinxs was aimed at the low-density segment. Altera also released the MAX 7000E family of complex PLDs, which featured architectural improvements of circuit performance of complex PLDs, as well as enhanced routability and usability features. At this time, Altera was the number three volume manufacturer of programmable CMOS logic devices, with a 15 percent market share. Ahead of Altera was Advanced Micro Devices, and in the number one position was competitor Xilinx, Inc., with a 24 percent share.

For Altera, 1994 was a year characterized by new product innovations and an ongoing effort to beat the competition with presence in new market segments. Seeking to gain a lead, Altera increased its market share to 20 percent in 1994 with the purchase of Intels PLD business, for about $50 million in cash and stock. In addition, the Intel acquisition delivered new customers and 15 new products to Altera. Further, Altera established itself as a programmable logic vendor supporting Microsofts Windows NT operating system by releasing MAX PLUS II version 4.0, representing a shift to the fully 32-bit software environment. MAX PLUS II incorporates VHDL very-high-speed integrated circuit hardware description language synthesis. This VHDL standard was promoted when 11 companies joined to form Analog VHDL International (AVI), an industry group that helped develop the IEEE 1076.1 standard (the analog extension of VHDL).

Altera Battles Xilinx

Altera also made a first step into the reconfigurable hardware products market in 1994. The company introduced a highcapacity programmable logic add-in board for PCsthe Re-configurable Interconnect Peripheral Processor (RIPP 10). This ISA bus board supports up to 100,000 gates of reconfigurable logic, allowing up to eight Altera FLEX 8188 devices. The company also put forth the industrys highest density single-die device, the 16,000-gate EPF51500 PLD, which was immediately followed by Xilinxs introduction of a 25,000-gate device. In April, the company introduced the largest capacity PLD on the market and the first off-the-shelf PLD/MCMthe 50,000-gate PLD multichip module PEF8050M, targeted at the ASIC prototyping market, as well as imaging applications and reconfigurable hardware products (RHPs).

Altera and Xilinx continued to race each other for introduction of industry-leading products. In June 1994, both companies came forth with products moving their devices to unprecedented 5 nanosecond pin-to-pin delay time range. Xilinx targeted new markets with faster speed devices, while Alteras EPM7032 was aimed at applications requiring logic integration in systems with next-generation microprocessors. In July, Altera made its first overtures to the military market, offering four PLDs as military standard compliant. Although defense spending was decreasing, a new emphasis on upgrading existing programs made design engineers receptive to off-the-shelf solutions to integrate system features into smaller board space, while keeping design costs low. As add-in card designers began to look toward PCI-compliant PLDs, Xilinx and Altera both claimed to introduce the industrys first programmable logic devices that were fully compliant with the Peripheral Component Interconnect (PCI) specification.

In August 1994, competitor Advanced Micro Devices filed a suit against Altera. AMD charged Altera with violating six of AMDs programmable logic device technology patents. Altera followed with a countersuit, stating that AMD infringed upon at least two perhaps as many as six of Alteras PLD patents. The case would be decided against AMD in 1996. Another suit had been initiated against Altera by Xilinx in June 1993, also regarding patent infringement. In the winter of 1994, Judge Aguilar indicated plans to appoint a special master with the technical background necessary to sort out the companies claims regarding master-slave configurations and interconnect patents. Altera filed a separate suit against Xilinx and the case continued to boomerang with multiple countersuits probing the company patents over the next couple of years. In 1994, Xilinx continued to lead the CMOS PLD market with a 29 percent share, while Altera retained 18 percent, followed by AMD with 16 percent.

Another innovation in the MAX family, the MAX 9000 architecture, was introduced in October 1994. The 9000 family more than doubled the density of currently available EPLDs, reaching system speeds of up to 80Mhz, and increasing cell utilization. Sales in 1994 neared $200,000, with almost 50 percent of revenues derived from foreign sales. Data communications and telecom customers comprised about 44 percent of sales. The $58 million increase in sales over 1993 represented the largest one-year increase in Alteras history. International semiconductor shipments reached $100 billion, along with sales of CMOS PLDs (the newly preferred method for implementing logic design).

In 1995, Altera came out with its MAX 9000 family of erasable PLDs. After a 30 percent drop in the price of the MAX 7000 family of erasable PLDs, the companys sales burst to more than twice the previous years, reaching an incredible $401.6 million with $86.9 million in net income. By this time, Altera had 881 employees, as compared to 370 just five years earlier. Also in 1995, Altera and Xilinx announced that their chips could service the lucrative $3 billion DSP semiconductor market, competing with dedicated and general-purpose DSP chips. Altera introduced Flexible Logic Element matrix (FLEX) 10000, another programmable logic architecture which sent the market over the 100,000 gate barrier. The device was created with what Altera called a sea of programmable bits architecture, using the embedded/standard logic block combination.

The company put a new face on an old model in 1995, augmenting the three-year-old MAX 7000 line with the MAX 7000S family. This new line of CPLDs was based on a new 0.5 micron, triple-layer metal process developed with Alteras foundry partners. The MAX 7000, since its introduction in 1992 when it generated $5 million in sales, had grown to an $80 million sales product by 1994, making it Alteras most successful CPLD line. Also in 1995, while industry reports bemoaned longer lead times in the field programmable gate array (FPGA) market, Altera announced that it had reduced lead times for two devicesthe 12,000-gate EPF81188A and 16,000-gate EPF81500Afrom 20 weeks to 10 weeks.

Altera and Xilinx once again were neck-and-neck in their announcements of industry landmark products, with Xilinxs introduction of the industrys fastest FPGA and Alteras announcement of the highest gate count FPGA shipped in volume.

Partnerships in the Mid-1990s

Joining six intellectual property providers, Altera launched the Altera Megafunctions Partners Program (AMPP) in August 1995. Megafunctions are hardware description language (HDL)-based designs of system-level functions that may be compiled in MAX-PLUS II software and targeted to Alteras device architectures. This new alliance was charged with the development of synthesizable function blocks for Alteras PLDs. The five other partners in AMPPEureka Technology, CAST Inc., RAVIcad, Silicon Engineering, and Advacelwere provided with access to Alteras 21,000 design seats.

In another partnership development, Altera entered into a U.S. joint venture wafer fabrication site, to be located in Camas, Washington, with foundry partner Taiwan Semiconductor Manufacturing Corp. (TSMC). The agreement caused TSMC to displace Sharp as Alteras biggest wafer supplier. Later, the companies were joined by Analog Devices and Integrated Silicon Solutions, Inc., forming a joint venture company named WaferTech.

The industrys largest capacity chip was introduced by Altera in 1996. The 10K100 has 10 million transistors. Also that year, the company unveiled MegaCore and OpenCore, software programs which allowed engineers to evaluate MegaCore functions prior to licensing them. A major industry slowdown in computers led to downsizing, and Altera was no exception. An oversupply of inventory and reduction of chip demand led to revenue decline during the years first quarter, and the company cut its workforce by 11 percent in June, eliminating about 100 positions. At the same time, the company authorized the repurchase of up to two million company shares.

Forging a new union, Altera joined Synopsis in a five-year agreement to jointly develop and market designer tools to support complex programmable logic devices (CPLDs). The partnership targeted two market segments: second wave designers changing to HDL-based designs for CPLDs and FPGAs, and gate array designers migrating to programmable logic for designs with gate densities of 100,000 or less.

The end of 1996 gave signs of a semiconductor industry downturn, similar to those of the 1980s and early 1990s. Several semiconductor manufacturers, including Altera, closed for the Christmas holidays, asking employees to take vacation days, borrow vacation days from the next year, and/or take time off without pay.

Predictions for Future Growth

In 1983, Altera brought a new idea to the market, introducing the reprogrammable logic device. In the 1990s, that innovation is a billion-dollar industry, bustling with competition. Alteras niche is, and always has been, its emphasis on newproduct development, through an investment in research and development over production. A market research firm, Dataquest, estimated in 1994 that the overall semiconductor market would grow at a compound annual growth rate of 15 percent a year through 1998. And, according to Money, analysts believed in 1996 that CPLD sales would grow 25 percent over the next five years. By 1996, the CPLD market had reached $1.6 billion, and Altera was well-protected from competition, due to the complexity of its chipsfueled by its long-time emphasis on research and development over productionas well as its close customer relationships. It seems likely that if the industry downturn reverses itself and the market grows more lucrative and technologically advanced Altera will be at the forefront.

Further Reading

Altera to Cut Employment 11%, Wall Street Journal, June 26, 1996, p. B6.

Altera 2Q Sales up 26%, Net 24%, Electronic News, July 22, 1996, p. 16.

Case, John, Intimate Relations, Inc., August, 1990, pp. 6472.

Cohen, Sarah, Washington Fab Venture Lures 2 More, Electronic News, July 1, 1996, p. 6.

DeTar, Jim, Altera, Partners Launch PLD Program, Electronic News, August 14, 1995, p. 49.

Keating, Peter, Coming off the Ropes, These Techs Pack Punch, Money, December 1996, pp. 7678.

Lineback, J. Robert, Alteras Speedy Way to Tailor Add-Ons to IBMs PS/2, Electronics, February 18, 1988, pp. 99102.

Mayer, John H., Altera Buys into Cypress Fab Capability, Computer Design, June 18, 1990, p. 34.

Rice, Valerie, Where They Are Now: 1987s Superstars Revisited, Electronic Business, September 4, 1989, pp. 3538.

, Breaking into Japan: Small U.S. companies Find Success in a Demanding Market, Electronic Business, November 27, 1989, pp. 6062.

Trial Prospects Grow for Xilinx, Altera, Electronic News, December 12, 1994, p. 65.

Wiegner, Kathleen K., Roll-Your-Own Chips, Forbes, October 1, 1990, pp. 242244.

Xilinx, Altera Tout Faster, Larger Programmable Devices, Electronic News, October 16, 1995, pp. 5253.

Heidi Feldman

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