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Fabless manufacturing is the design and sale of hardware devices and semiconductor chips while outsourcing the fabrication or \”fab\” of the devices to a specialized manufacturer called a semiconductor foundry. Foundries are typically, but not exclusively, located in China and Taiwan because of the generally low cost of labor. Thus, fabless companies can benefit from lower capital costs while concentrating their research and development resources on the end market.
The credit for pioneering the fabless concept is given to Bernie Vonderschmitt of Xilinx and Gordon A. Campbell of Chips and Technologies. The first fabless semiconductor company, the Western Design Center, was founded in 1978. Xilinx, founded in 1984, was the first to \”truly\” separate the design of chips from their manufacture.
Prior to the 1980s, the semiconductor industry was vertically integrated. Semiconductor companies owned and operated their own silicon-wafer fabrication facilities and developed their own process technology for manufacturing their chips. These companies also carried out the assembly and testing of their chips, the fabrication.
Meanwhile, with the help of private-equity funding, smaller companies began to form, with experienced engineers exercising their entrepreneurial prowess by establishing their own IC design companies focused on innovative chip solutions.
As with most technology-intensive industries, the silicon manufacturing process presents high barriers to entry into the market, especially for small start-up companies. At the same time, Integrated Device Manufacturers (IDMs) had excess production capacity. The smaller companies began relying on IDMs to manufacture the chips they were designing.
These conditions underlay the birth of the fabless business model. Companies were manufacturing integrated circuits (ICs) without owning a fabrication plant. Simultaneously, the foundry industry was established by Dr. Morris Chang with the founding of Taiwan Semiconductor Manufacturing Corporation (TSMC). Foundries became the cornerstone of the fabless model, providing a non-competitive manufacturing partner for fabless companies.
In 1994, Jodi Shelton, along with a half a dozen CEOs of fabless companies, established the Fabless Semiconductor Association (FSA) to promote the fabless business-model globally.
In December 2007, the FSA transitioned to the GSA, the Global Semiconductor Alliance. The organizational transition reflected the role FSA had played as a global organization that collaborated with other organizations to co-host international events. Additionally, the GSA leadership is composed of regional leadership councils with executives from those regions who serve as advisers to the GSA Board of Directors on global and regional issues. Those leadership councils are the Asia-Pacific Leadership Council and the Europe, Middle East and African (EMEA) Leadership Council.
When FSA was established in 1994, there were only three fabless companies—Cirrus Logic, Adaptec, and Xilinx—each with revenues in excess of $250 million. During the 1990s, industry pundits acknowledged the financial success of fabless companies, such as Nvidia, Broadcom, and Xilinx, and such companies as Cyrix produced competitively-priced products, benefiting consumers and driving the global market for computing devices.
The model has been further validated by the conversion of major IDMs to a completely fabless model, including (for example) Conexant Systems, Semtech, and most recently, LSI Logic. Today most major IDMs including Apple Inc., Freescale, Infineon and Cypress Semiconductor have adopted the practice of outsourcing chip manufacturing as a significant manufacturing strategy. As of 2007, the fabless model is the preferred business model for the semiconductor industry. The same year GSA tracked 10 separate fabless companies that had each surpassed $1 billion in annual revenues.

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Fabless Semiconductor Association (FSA) – TechOnline

The Fabless Semiconductor Association (FSA) attempts to achieve a more optimal balance between wafer demand and capacity. Its more than 350 corporate.

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Global Semiconductor Alliance – Join GSA

GSA is the only organization that brings together the entire semiconductor ecosystem in order to represent and promote industry-we interests and thoughts.

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Fabless Semiconductor Association (FSA) Announces Six …

The FSA is the global voice of fabless and hybr semiconductor companies and their foundry and supply chain partners. Incorporated in 1994, the Association ( …

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Introduction to the Fabless Semiconductor Association (FSA …

Introduction to the Fabless. Semiconductor Association (FSA) and the Modeling Committee Activities. Daniel Foty. Gilgamesh Associates. Fletcher, Vermont.

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Fabless manufacturing – Wikipedia

Fabless manufacturing is the design and sale of hardware devices and semiconductor chips while outsourcing their fabrication (or fab) to a specialized …

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Get directions, reviews and information for Fabless Semiconductor Association in Dallas, TX.

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How is Fabless Semiconductor Association abbreviated?

FSA, Fabless Semiconductor Association (now Global Semiconductor Alliance). FSA, Full Service Airline. FSA, Food Safety Act 1990 (UK).

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What is a fabless chip company?

What Is a Fabless Company? The term “fabless company” refers to a company that designs and markets hardware while outsourcing the manufacturing of that hardware to a third-party partner. The term is commonly used in relation to advanced chip designers, who hold the intellectual property (IP) for the chips they sell.

Which is the largest fabless company?

Is Nvidia a fabless?

Meanwhile, chipmakers in the PC space also did extremely well, with NVIDIA becoming the second largest fabless IC design company. Team Green recorded a yearly growth of 55%, making it one of the most successful semiconductor companies in 2021.

Is Qualcomm a fabless company?

Qualcomm is a predominantly fabless provider of semiconductor products for wireless communications and data transfer in portable devices. According to the analyst firm Strategy Analytics, Qualcomm has a 39 percent market-share for smartphone application processors and a 50 percent market-share of baseband processors.

Is Intel a fabless company?

Examples of IDMs are Intel, Samsung, and Texas Instruments, examples of fabless companies are AMD, Nvidia, and Qualcomm, and examples of pure play foundries are GlobalFoundries, TSMC, and UMC. Integrated circuit production facilities are expensive to build and maintain.

Who makes Nvidia chips?

IBM landed a major foundry deal expected to be worth over $100 million Wednesday, agreeing to manufacture the next generation of Nvidia’s GeForce graphics processors at its fab in East Fishkill, N.Y.

Who is the largest semiconductor company?

How many fabs are there?

Intel has 15 wafer fabs in production worldwide at 10 locations.

What does a semiconductor foundry do?

In simple terms, a semiconductor foundry (also known as a fab) is a factory where silicon wafers are manufactured. The main customers of a semiconductor foundry are chip makers such as: Broadcom, Qualcomm, Intel, AMD and more.

Is AMD a foundry?

While TSMC has become AMD’s primary foundry partner, it uses a separate semiconductor die from GF to tie its components together in a module. Not everything needs to be on the most advanced processes in a heterogeneous package.

Is Taiwan Semiconductors a buy?

It’s a rock-solid buy at these prices

It might not replicate those massive gains over the next two decades, but it will remain a linchpin of the growing semiconductor market for the foreseeable future.

Does Nvidia compete with TSMC?

For GPUs, AMD and Nvidia both use Taiwan Semiconductor Manufacturing’s (TSMC) foundry. AMD’s strategy so far has been to produce cheaper GPUs with similar performance to Nvidia. TSMC is currently the worlds top GPU foundry, with Intel seeking to take market share with its own proprietary chips.

Is TSMC fabless?

TSMC’s foundry business model has enabled the rise of the global fabless industry, and since its inception TSMC has been the world’s leading semiconductor foundry. The Company manufactured 11,617 different products using 281 distinct technologies for 510 different customers in 2020.

Is AMD a fabless?

AMD began as an integrated design manufacturer competing directly with Intel – meaning they designed and made their own chips. When the company’s internal manufacturing operations started to lag behind Intel, the company transitioned into being a fabless manufacturer.

Does Qualcomm make chips for Apple?

“My latest survey indicates that Apple’s own iPhone 5G modem chip development may have failed, so Qualcomm will remain exclusive supplier for 5G chips of 2H23 new iPhones, with a 100% supply share (vs. company’s previous estimate of 20%),” Ming-Chi Kuo, an analyst at TF International Securities, wrote in a tweet.

Is AMD a fabless?

AMD began as an integrated design manufacturer competing directly with Intel – meaning they designed and made their own chips. When the company’s internal manufacturing operations started to lag behind Intel, the company transitioned into being a fabless manufacturer.

Is Xilinx a fabless?

Xilinx pioneered fabless manufacturing and continues to deliver quality products. Xilinx pioneered fabless manufacturing and continues to deliver products with zero-defect using industry leading engineering with aligned supplier quality programs.

What is fab and fabless?

A fabless company is a company that does not own a semiconductor foundry. The term ‘fab’ stands for fabrication, hence, ‘fabless’ indicating that the company does not take any part in the fabrication of the product but instead only participates in the designing and marketing aspects of the semiconductor chips.

Is AMD a foundry?

While TSMC has become AMD’s primary foundry partner, it uses a separate semiconductor die from GF to tie its components together in a module. Not everything needs to be on the most advanced processes in a heterogeneous package.

Fabless Semiconductor Association (FSA) – TechOnline

The Fabless Semiconductor Association (FSA) attempts to achieve a more optimal balance between wafer demand and capacity. Its more than 350 corporate members represent fabless companies, integrated device manufacturers, foundry providers, packaging/assembly houses, electronic design automation companies, investment bankers, intellectual property providers and other companies.

The organization encourages the relationship between fabless companies and suppliers; facilitates business partnerships; creates awareness of the fabless business model; disseminates relevant data; and fosters standards and policies.

Global Semiconductor Alliance

Get to Know the CEO showcases some of the faces of our member companies, what they’re working on outside of work and the wisdom they have to impart on others in the industry. This month we interviewed Gopi Read More

Fabless Semiconductor Association (FSA) Announces Six Percent Price Increase for 0.13-Micron Process Technology

FSA Releases Back-End Pricing Survey Results In “Q1 2004 Wafer Fabrication & Assembly/Test Report”

SAN JOSE, Calif. (April 21, 2004) – The Fabless Semiconductor Association (FSA), a premier semiconductor trade association, today announced the results of its quarterly “Wafer Fabrication and Assembly/Test Pricing Survey,” analyzing the average price paid per wafer by 129 fabless companies and integrated device manufacturers (IDMs). The “Q1 2004 Wafer Fabrication & Assembly/Test Report” indicates that average prices for wafers using 0.13-micron process geometry increased six percent from Q3 2003 to Q1 2004.

The majority of participants ordered 0.18-micron process geometry, with more than 27 percent of fabless participants and 22 percent of IDMs ordering wafers using this process geometry. Additionally, in Q1 2004, 12 percent of fabless wafer orders included 0.13-micron process geometry, compared to 10 percent of all IDM orders placed for the same process.

The survey results provide detailed insight into average unit wafer costs (150mm, 200mm and 300mm) using factors such as process geometry, number of metal layers, wafer process, number of poly layers and epitaxial/non-epitaxial processes.

A new section was added to the survey this quarter to specifically address assembly and test issues. Participant responses indicate that fabless companies, on average, pay more for outsourced back-end services than IDMs. Fabless companies pay 36 percent more than IDMs for assembly services when including package family, leads and units per week. Test service prices are 59 percent higher for fabless companies than IDMs when test segment, signal pin count, digital data rate and units per week are evaluated.

To ensure confidentiality, data was collected and tabulated by Ernst & Young LLP, using a weighted industry average approach. Access to detailed survey results can be purchased via the FSA Web site at www.fsa.org/store.

About the Fabless Semiconductor Association:

The FSA is the global voice of fabless and hybrid semiconductor companies and their foundry and supply chain partners. Incorporated in 1994, the Association (www.fsa.org) is focused on the perpetuation of the fabless business model throughout the worldwide semiconductor industry. The organization encourages the relationship between semiconductor companies and suppliers; facilitates business partnerships; creates awareness of the fabless/outsourced business model; disseminates industry data; and fosters standards and policies.

FSA members include fabless companies, integrated device manufacturers (IDMs), foundry providers, packaging/assembly houses, intellectual property providers, electronic design automation companies, OEMs, photomask companies, design software companies, investment bankers, venture capitalists and other companies. FSA members represent more than 21 countries spanning North America, Asia-Pacific, Europe and the Middle East.

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Fabless manufacturing

Outsourced fabrication of semiconductors

Fabless manufacturing is the design and sale of hardware devices and semiconductor chips while outsourcing their fabrication (or fab) to a specialized manufacturer called a semiconductor foundry. These foundries are typically, but not exclusively, located in the United States, China, and Taiwan.[1][2][3][4] Fabless companies can benefit from lower capital costs while concentrating their research and development resources on the end market. Some fabless companies and pure play foundries (like TSMC) may offer integrated-circuit design services to third parties.

History [ edit ]

Prior to the 1980s, the semiconductor industry was vertically integrated. Semiconductor companies owned and operated their own silicon-wafer fabrication facilities and developed their own process technology for manufacturing their chips. These companies also carried out the assembly and testing of their own chips.

As with most technology-intensive industries, the silicon manufacturing process presents high barriers to entry into the market, especially for small start-up companies. But integrated device manufacturers (IDMs) had excess production capacity. This presented an opportunity for smaller companies, relying on IDMs, to design but not manufacture silicon.

These conditions underlay the birth of the fabless business model. Engineers at new companies began designing and selling ICs without owning a fabrication plant. Simultaneously, the foundry industry was established by Dr. Morris Chang with the founding of Taiwan Semiconductor Manufacturing Corporation (TSMC). Foundries became the cornerstone of the fabless model, providing a non-competitive manufacturing partner for fabless companies.

The co-founders of the first fabless semiconductor company, LSI Computer Systems, Inc. (LSI/CSI) LSI/CSI, worked together at General Instrument Microelectronics (GIM) in the 1960s. In 1969 GIM was hired to develop three full custom CPU circuits for Control Data Corporation (CDC). These CPU ICs operated at 5 MHz (state of the art at the time) and were incorporated in the CDC Computer 469. The Computer 469 became a standard CDC Aerospace Computer and was used in the Spy in the Sky Satellites in addition to other classified satellite programs.

GIM was reluctant to proceed with the next phase of the program, which it deemed to be too technically challenging. The GIM engineers who had worked on the project were encouraged by CDC to form their own company to provide five new custom circuits. This resulted in the formation of LSI Computer Systems, Inc. (LSI/CSI) in 1969. The new chips were power-efficient random logic circuits with extremely high circuit densities. These new circuits also operated at 5 MHz. These devices were designated LSI0101, LSI0102, LSI0103, LSI0104, and LSI0105 and were manufactured in compact 40-pin metal flat packs with 0.050 inches (1.3 mm) spacing.

In creating the fabless semiconductor industry, LSI/CSI had to do the following:

Select a suitable and CDC certifiable wafer fab house. Monitor the process, and inspection of all wafers per Class S requirements and visuals. Perform all In-Process inspections of the wafers. Select a highly reliable packaging house capable of meeting CDC’s Class S assembly requirements. Have CDC certify and approve the assembly facility and its processes. LSI/CSI successfully performed all required environmental testing at Class S approved facilities. LSI/CSI prepared and submitted all environmental test reports.

CDC’s Aerospace Computer 469 weighed one pound, consumed a total of 10 watts and ran at 5 MHz. CDC ran a parallel program, developing a chipset of eight similar parts that were to operate at 2.5 MHz with the identical environmental and Class S requirements. CDC had initial difficulties with this project, but eventually awarded another contract to LSI/CSI to manage the processing, inspection, visuals, assembly, and testing of the ICs. These parts were given the designation LSI3201, LSI3202, LSI3203, LSI3204 and LSI3205. Another successful space program completed by LSI/CSI was the upgrade to class S of a Standard Brushless DC Motor Commutator/Controller Chip, LS7262, which was implemented in satellites.

In 1994, Jodi Shelton, along with a half a dozen CEOs of fabless companies, established the Fabless Semiconductor Association (FSA) to promote the fabless business-model globally. In December 2007, the FSA transitioned to the GSA, the Global Semiconductor Alliance.[5] The organizational transition reflected the role FSA had played as a global organization that collaborated with other organizations to co-host international events.

Industry growth and success [ edit ]

The fabless manufacturing model has been further validated by the conversion of major IDMs to a completely fabless model, including (for example) Conexant Systems, Semtech, and most recently, LSI Logic. Today most major IDMs including Apple Inc., Infineon and Cypress Semiconductor have adopted the practice of outsourcing chip manufacturing as a significant manufacturing strategy.

Sales leaders [ edit ]

The top 5 sales leaders for fabless companies in 2020 were:[6]

Rank Company Headquarters Revenue (million US$ ) 1 Qualcomm United States 19,407 2 Broadcom United States 17,745 3 Nvidia United States 15,412 4 MediaTek Taiwan 10,929 5 AMD United States 9,763

The top 5 sales leaders for fabless companies in 2019 were:[7]

Rank Company Headquarters Revenue (million US$ ) 1 Broadcom United States 17,246 2 Qualcomm United States 14,518 3 Nvidia United States 10,125 4 MediaTek Taiwan 7,962 5 AMD United States 6,731

The top 5 sales leaders for fabless companies in 2017 were:[8]

Rank Company Headquarters Revenue (million US$ ) 1 Qualcomm United States 17,078 2 Broadcom United States 16,065 3 Nvidia United States 9,228 4 MediaTek Taiwan 7,875 5 Apple United States 6,660

The top 5 sales leaders for fabless companies in 2013 were:[9]

Rank Company Headquarters Revenue (million US$ ) 1 Qualcomm United States 17,200 2 Broadcom United States 8,200 3 AMD United States 5,300 4 MediaTek Taiwan 4,600 5 Nvidia United States 3,900

The top 5 sales leaders for fabless companies in 2011 were:[10]

Rank Company Headquarters Revenue (million US$ ) 1 Qualcomm United States 9,910 2 Broadcom United States 7,160 3 AMD United States 6,568 4 Nvidia United States 3,939 5 Marvell United States 3,445

The top 5 sales leaders for fabless companies in 2010 were:[11]

Rank Company Headquarters Revenue (million US$ ) 1 Qualcomm United States 7,098 2 Broadcom United States 6,540 3 AMD United States 6,460 4 MediaTek Taiwan 3,610 5 Marvell United States 3,602

The top 5 sales leaders for fabless companies in 2003 were:

Rank Company Headquarters Revenue (million US$ ) 1 Qualcomm United States 2,398 2 NVIDIA United States 1,716 3 Broadcom United States 1,610 4 ATI Technologies Canada 1,401 5 Xilinx United States 1,300

See also [ edit ]

Fabless Company Definition

What Is a Fabless Company?

The term “fabless company” refers to a company that designs and markets hardware while outsourcing the manufacturing of that hardware to a third-party partner.

The term is commonly used in relation to advanced chip designers, who hold the intellectual property (IP) for the chips they sell. Famous examples include Apple (AAPL), NVIDIA (NVDA), and Qualcomm (QCOM).

Key Takeaways A fabless company is one that develops and holds IP while outsourcing the fabrication of its hardware.

The term is commonly used in the computer hardware market to refer to advanced semiconductor manufacturing.

This business model allows fabless companies to benefit from reduced labor costs and economies of scale, while focusing on the ongoing development and monetization of their IP portfolios.

How Fabless Companies Work

Fabless companies emerged due to the fact that the companies that develop the IP for new chip designs and other forms of advanced hardware are typically headquartered in developed countries in which the cost of labor is relatively high. As a result, fabricating the hardware in-house through a vertically integrated supply chain could prove uneconomical, leading to depressed margins and less capital available to fund further research and development (R&D).

For this reason, many successful companies have chosen to outsource the fabrication of their hardware to dedicated manufacturing firms. These companies are often located in countries with lower labor costs, in which local fabricators have built up considerable experience and expertise in this form of specialized manufacturing.

In the context of chip manufacturing, the companies that specialize only in fabricating the chips—without developing their own IP or marketing the end product—are commonly referred to as “chip foundries.” The largest such company is the Taiwan Semiconductor Manufacturing Company (TSM), which controls roughly 52% of the global market and generated nearly $35 billion in revenues in 2019.

Today, the cost of developing a new factory that could hope to compete with an established player such as TSM could cost upwards of $10 billion. When combined with the relatively low operational costs of the established foundries, this barrier to entry creates a significant incentive for fabless companies to continue outsourcing their manufacturing process.

Real-World Example of a Fabless Company

The United States is home to some of the most successful fabless companies in the world, many of which are internationally dominant in their respective markets. For example, Qualcomm is a $100 billion fabless company that holds a vast portfolio of IP relating to semiconductors, particularly those geared toward mobile phones. Its revenues, which reached nearly $24 billion as of September 2020, are substantially derived from the royalty streams earned on its IP licensing agreements.

NVIDIA Corporation is another prominent example of a successful American firm employing the fabless business model. A specialist in graphics processing unit (GPU) technology, the company now holds IP in areas such as mobile phone central processing units (CPUs), chipsets for motherboards, hardware and software for professional graphics visualization applications, and a variety of software products for both commercial and consumer-facing applications. As with all fabless companies, NVIDIA’s business model relies in large part on revenues from its IP portfolio and alliances with highly sophisticated manufacturing partners.

Fabless manufacturing

Outsourced fabrication of semiconductors

Fabless manufacturing is the design and sale of hardware devices and semiconductor chips while outsourcing their fabrication (or fab) to a specialized manufacturer called a semiconductor foundry. These foundries are typically, but not exclusively, located in the United States, China, and Taiwan.[1][2][3][4] Fabless companies can benefit from lower capital costs while concentrating their research and development resources on the end market. Some fabless companies and pure play foundries (like TSMC) may offer integrated-circuit design services to third parties.

History [ edit ]

Prior to the 1980s, the semiconductor industry was vertically integrated. Semiconductor companies owned and operated their own silicon-wafer fabrication facilities and developed their own process technology for manufacturing their chips. These companies also carried out the assembly and testing of their own chips.

As with most technology-intensive industries, the silicon manufacturing process presents high barriers to entry into the market, especially for small start-up companies. But integrated device manufacturers (IDMs) had excess production capacity. This presented an opportunity for smaller companies, relying on IDMs, to design but not manufacture silicon.

These conditions underlay the birth of the fabless business model. Engineers at new companies began designing and selling ICs without owning a fabrication plant. Simultaneously, the foundry industry was established by Dr. Morris Chang with the founding of Taiwan Semiconductor Manufacturing Corporation (TSMC). Foundries became the cornerstone of the fabless model, providing a non-competitive manufacturing partner for fabless companies.

The co-founders of the first fabless semiconductor company, LSI Computer Systems, Inc. (LSI/CSI) LSI/CSI, worked together at General Instrument Microelectronics (GIM) in the 1960s. In 1969 GIM was hired to develop three full custom CPU circuits for Control Data Corporation (CDC). These CPU ICs operated at 5 MHz (state of the art at the time) and were incorporated in the CDC Computer 469. The Computer 469 became a standard CDC Aerospace Computer and was used in the Spy in the Sky Satellites in addition to other classified satellite programs.

GIM was reluctant to proceed with the next phase of the program, which it deemed to be too technically challenging. The GIM engineers who had worked on the project were encouraged by CDC to form their own company to provide five new custom circuits. This resulted in the formation of LSI Computer Systems, Inc. (LSI/CSI) in 1969. The new chips were power-efficient random logic circuits with extremely high circuit densities. These new circuits also operated at 5 MHz. These devices were designated LSI0101, LSI0102, LSI0103, LSI0104, and LSI0105 and were manufactured in compact 40-pin metal flat packs with 0.050 inches (1.3 mm) spacing.

In creating the fabless semiconductor industry, LSI/CSI had to do the following:

Select a suitable and CDC certifiable wafer fab house. Monitor the process, and inspection of all wafers per Class S requirements and visuals. Perform all In-Process inspections of the wafers. Select a highly reliable packaging house capable of meeting CDC’s Class S assembly requirements. Have CDC certify and approve the assembly facility and its processes. LSI/CSI successfully performed all required environmental testing at Class S approved facilities. LSI/CSI prepared and submitted all environmental test reports.

CDC’s Aerospace Computer 469 weighed one pound, consumed a total of 10 watts and ran at 5 MHz. CDC ran a parallel program, developing a chipset of eight similar parts that were to operate at 2.5 MHz with the identical environmental and Class S requirements. CDC had initial difficulties with this project, but eventually awarded another contract to LSI/CSI to manage the processing, inspection, visuals, assembly, and testing of the ICs. These parts were given the designation LSI3201, LSI3202, LSI3203, LSI3204 and LSI3205. Another successful space program completed by LSI/CSI was the upgrade to class S of a Standard Brushless DC Motor Commutator/Controller Chip, LS7262, which was implemented in satellites.

In 1994, Jodi Shelton, along with a half a dozen CEOs of fabless companies, established the Fabless Semiconductor Association (FSA) to promote the fabless business-model globally. In December 2007, the FSA transitioned to the GSA, the Global Semiconductor Alliance.[5] The organizational transition reflected the role FSA had played as a global organization that collaborated with other organizations to co-host international events.

Industry growth and success [ edit ]

The fabless manufacturing model has been further validated by the conversion of major IDMs to a completely fabless model, including (for example) Conexant Systems, Semtech, and most recently, LSI Logic. Today most major IDMs including Apple Inc., Infineon and Cypress Semiconductor have adopted the practice of outsourcing chip manufacturing as a significant manufacturing strategy.

Sales leaders [ edit ]

The top 5 sales leaders for fabless companies in 2020 were:[6]

Rank Company Headquarters Revenue (million US$ ) 1 Qualcomm United States 19,407 2 Broadcom United States 17,745 3 Nvidia United States 15,412 4 MediaTek Taiwan 10,929 5 AMD United States 9,763

The top 5 sales leaders for fabless companies in 2019 were:[7]

Rank Company Headquarters Revenue (million US$ ) 1 Broadcom United States 17,246 2 Qualcomm United States 14,518 3 Nvidia United States 10,125 4 MediaTek Taiwan 7,962 5 AMD United States 6,731

The top 5 sales leaders for fabless companies in 2017 were:[8]

Rank Company Headquarters Revenue (million US$ ) 1 Qualcomm United States 17,078 2 Broadcom United States 16,065 3 Nvidia United States 9,228 4 MediaTek Taiwan 7,875 5 Apple United States 6,660

The top 5 sales leaders for fabless companies in 2013 were:[9]

Rank Company Headquarters Revenue (million US$ ) 1 Qualcomm United States 17,200 2 Broadcom United States 8,200 3 AMD United States 5,300 4 MediaTek Taiwan 4,600 5 Nvidia United States 3,900

The top 5 sales leaders for fabless companies in 2011 were:[10]

Rank Company Headquarters Revenue (million US$ ) 1 Qualcomm United States 9,910 2 Broadcom United States 7,160 3 AMD United States 6,568 4 Nvidia United States 3,939 5 Marvell United States 3,445

The top 5 sales leaders for fabless companies in 2010 were:[11]

Rank Company Headquarters Revenue (million US$ ) 1 Qualcomm United States 7,098 2 Broadcom United States 6,540 3 AMD United States 6,460 4 MediaTek Taiwan 3,610 5 Marvell United States 3,602

The top 5 sales leaders for fabless companies in 2003 were:

Rank Company Headquarters Revenue (million US$ ) 1 Qualcomm United States 2,398 2 NVIDIA United States 1,716 3 Broadcom United States 1,610 4 ATI Technologies Canada 1,401 5 Xilinx United States 1,300

See also [ edit ]

NVIDIA Becomes 2nd Largest Fabless Chipmaker, AMD at #5 w/ Growth of 54% by Revenue

The pandemic was a massive boon to the PC market, even though the semiconductor shortages limited the maximum potential growth of the industry. Among the biggest winners, we have NVIDIA, AMD, Qualcomm, MediaTek, Apple, as well as memory and NAND manufacturers Micron, HK Hynix, and Samsung. In the fabless segment, a few of these names are eliminated, leaving the IC Design companies to compete for the foundry share, either at TSMC or Samsung. Trendforce has released the list of the Top 10 IC Design Companies by Revenue in Q3 2021:

The list is similar to previous quarters’, with Qualcomm, MediaTek, and Novatek recording higher than expected growth. Meanwhile, chipmakers in the PC space also did extremely well, with NVIDIA becoming the second largest fabless IC design company. Team Green recorded a yearly growth of 55%, making it one of the most successful semiconductor companies in 2021. Driven by record sales of GeForce RTX 30 series GPUs (despite shortages), strong growth in the data center market (A100 accelerators dominated the SC rankings), and other semi-custom projects (such as the Nintendo Switch), NVIDIA plastered its place as the de-facto GPU designer in the industry.

AMD came in at #5 with a revenue of $4.3 billion, reflecting a yearly growth of 54%. Although this is a smidge lower than the results from the previous two quarters, it’s an impressive figure, nonetheless. The sales of the semi-custom console designs, paired with the incredible demand for the Ryzen parts, and Epyc server CPUs pushed the Lisa Su-led company to new heights.

Wikipedia

American global semiconductor company

Qualcomm ( )[2] is an American multinational corporation headquartered in San Diego, California, and incorporated in Delaware.[3] It creates semiconductors, software, and services related to wireless technology. It owns patents critical to the 5G,[4] 4G,[4] CDMA2000, TD-SCDMA and WCDMA mobile communications standards.

Qualcomm was established in 1985 by Irwin M. Jacobs and six other co-founders. Its early research into CDMA wireless cell phone technology was funded by selling a two-way mobile digital satellite communications system known as Omnitracs. After a heated debate in the wireless industry, the 2G standard was adopted with Qualcomm’s CDMA patents incorporated.[5] Afterwards there was a series of legal disputes about pricing for licensing patents required by the standard.

Over the years, Qualcomm has expanded into selling semiconductor products in a predominantly fabless manufacturing model. It also developed semiconductor components or software for vehicles, watches, laptops, wi-fi, smartphones, and other devices.

History [ edit ]

Early history [ edit ]

Qualcomm was created in July 1985[6][5] by seven former Linkabit employees led by Irwin Jacobs.[7] The company was named Qualcomm for “QUALity COMMunications”.[8] It started as a contract research and development center[9] largely for government and defense projects.[7][10]

Qualcomm merged with Omninet in 1988 and raised $3.5 million in funding in order to produce the Omnitracs satellite communications system for trucking companies.[7] Qualcomm grew from eight employees in 1986 to 620 employees in 1991, due to demand for Omnitracs.[11] By 1989, Qualcomm had $32 million in revenue, 50 percent of which was from an Omnitracs contract with Schneider National.[7][12] Omnitracs profits helped fund Qualcomm’s research and development into code-division multiple access (CDMA) technologies for cell phone networks.[9][13]

Qualcomm was operating at a loss in the 1990s due to its investment in CDMA research.[9][13] To obtain funding, the company filed an initial public offering in September 1991[14] raising $68 million.[7] An additional $486 million was raised in 1995 through the sale of 11.5 million more shares. The second funding round was done to raise money for the mass manufacturing of CDMA-based phones, base-stations, and equipment, after most US-based cellular networks announced they would adopt the CDMA standard.[9] The company had $383 million in annual revenue in 1995[15] and $814 million by 1996.[16]

In 1998, Qualcomm was restructured, leading to a 700-employee layoff. Its base station and cell-phone manufacturing businesses were spun-off in order to focus on its higher-margin patents and chipset businesses.[7][9]: 310–311 Since the base station division was losing $400M a year (having never sold another base station after making its 10th sale), profits skyrocketed in the following year, and Qualcomm was the fastest growing stock on the market with a 2,621 percent growth over one year.[17][18][19] By 2000, Qualcomm had grown to 6,300 employees, $3.2 billion in revenues, and $670 million in profit. 39 percent of its sales were from CDMA technology, followed by licensing (22%), wireless (22%), and other products (17%).[9] Around this time, Qualcomm established offices in Europe, Asia Pacific, and Latin America.[9]: 316 By 2001, 65 percent of Qualcomm’s revenues originated from outside the United States with 35 percent coming from South Korea.[9]: 19

In 2005, Paul E. Jacobs, son of Qualcomm founder Irwin Jacobs, was appointed as Qualcomm’s new CEO.[20] Whereas Irwin Jacobs focused on CDMA patents, Paul Jacobs refocused much of Qualcomm’s new research and development on projects related to the internet of things.[20] In the same year they have acquired Flarion Technologies, a developer of wireless broadband Orthogonal Frequency Division Multiplex Access (OFDMA) technology.[21]

Qualcomm announced Steven Mollenkopf would succeed Paul Jacobs as CEO in December 2013.[22][23] Mollenkopf said he would expand Qualcomm’s focus to wireless technology for cars, wearable devices, and other new markets.[24][25]

2015–present: NXP, Broadcom and NUVIA [ edit ]

Qualcomm announced its intent to acquire NXP Semiconductors for $47 billion in October 2016.[26] The deal was approved by U.S. antitrust regulators in April 2017[27] with some standard-essential patents excluded to get the deal approved by antitrust regulators.[28][29]

As the NXP acquisition was ongoing, Broadcom made a $103 billion offer to acquire Qualcomm,[30][31] and Qualcomm rejected the offer.[32] Broadcom attempted a hostile takeover,[33] and raised its offer, eventually to $121 billion.[34] The potential Broadcom acquisition was investigated by the U.S. Committee on Foreign Investment[35] and blocked by an executive order from former U.S. President Donald Trump, citing national security concerns.[36]

Qualcomm’s NXP acquisition then became a part of the 2018 China–United States trade war.[37] U.S. President Donald Trump blocked China-based ZTE Corporation from buying American-made components, such as those from Qualcomm.[37][38] The ZTE restriction was lifted after the two countries reached an agreement,[39] but then Trump raised tariffs against Chinese goods.[37] Qualcomm extended a tender offer to NXP at least 29 times pending Chinese approval,[40] before abandoning the deal in July 2018.[41][42]

On January 6, 2021, Qualcomm appointed its president and chip division head Cristiano Amon as its new chief executive.[43] On January 13, 2021, Qualcomm announced agreement to acquire NUVIA for approximately $1.4 billion.[44] NUVIA was a server CPU startup founded in early 2019 by ex-Apple and ex-Google architects.[45] On March 16, 2021, Qualcomm announced the completion of their acquisition of NUVIA, and the first products will be laptop CPUs and would be sampling in the second half of 2022.[46]

In March 2022, Qualcomm acquired the Advanced Driver Assistance Systems and Autonomous Driving software brand, Arriver from the investment company, SSW Partners.[47]

In June 2022, Qualcomm acquired Israeli startup Cellwize through its investment art, Qualcomm Ventures.[48]

Wireless CDMA [ edit ]

2G [ edit ]

Early history [ edit ]

In mid-1985, Qualcomm was hired by Hughes Aircraft to provide research and testing for a satellite network proposal to the Federal Communications Commission (FCC).[7]: 38 The following year, Qualcomm filed its first CDMA patent (No. 4,901,307).[7] This patent established Qualcomm’s overall approach to CDMA[7] and later became one of the most frequently cited technical documents in history.[49]: 84 The project with the FCC was scrapped in 1988, when the FCC told all twelve vendors that submitted proposals to form a joint venture to create a single proposal.[7]: 38

Qualcomm further developed the CDMA techniques for commercial use and submitted them to the Cellular Telephone Industries Association (CTIA) in 1989 as an alternative to the time-division multiple access (TDMA) standard for second-generation cell-phone networks.[7]: 49 A few months later, CTIA officially rejected Qualcomm’s CDMA standard[50] in favor of the more established TDMA standard developed by Ericsson.[9][16]

At the time, CDMA wasn’t considered viable in high-volume commercial applications due to the near-far field effect, whereby phones closer to a cell tower with a stronger signal drown out callers that are further away and have a weaker signal.[7]: 54–55, 62–65 [51] Qualcomm filed three additional patents in 1989. They were for: a power management system that adjusts the signal strength of each call to adjust for the near-far field effect; a “soft handoff” methodology for transferring callers from one cell-tower to the next; and a variable rate encoder, which reduces bandwidth usage when a caller isn’t speaking.[7]: 54–55, 62–65 [51]

Holy wars of wireless [ edit ]

After the FCC said carriers were allowed to implement standards not approved by the CTIA, Qualcomm began pitching its CDMA technology directly to carriers.[7] This started what is often referred to as “the Holy Wars of Wireless”, an often heated debate about whether TDMA or CDMA was better suited for 2G networks.[7]: 117–120 Qualcomm-supported CDMA standards eventually unseated TDMA as the more popular 2G standard in North America, due to its network capacity.[16]

Qualcomm conducted CDMA test demonstrations in 1989[52] in San Diego and in 1990 in New York City.[53][54] In 1990, Nynex Mobile Communications and Ameritech Mobile Communications were the first carriers to implement CDMA networks instead of TDMA.[53] Motorola, a prior TDMA advocate, conducted CDMA test implementations in Hong Kong and Los Angeles.[55][51] This was followed by a $2 million trial network in San Diego for Airtouch Communications.[16][54]: 177 In November 1991, 14 carriers and manufacturers conducted large-scale CDMA field tests.[16][56]

Results from the test implementations convinced CTIA to re-open discussions regarding CDMA and the 2G standard.[57] CTIA changed its position and supported CDMA in 1993,[16] adopting Qualcomm’s CDMA as the IS-95A standard, also known as cdmaOne.[58] This prompted widespread criticism in forums, trade press, and conventions from businesses that had already invested heavily in the TDMA standard and from TDMA’s developer, Ericsson.[16][57]

The first commercial-scale CDMA cellular network was created in Hong Kong in 1995.[58] On July 21, 1995, Primeco, which represented a consortium of Cox Communications, Comcast, Sprint and others, announced it was going to implement CDMA-based services[16] on networks in 15 states.[58] By this time, 11 out of 14 of the world’s largest networks supported CDMA.[16][59] By 1997 CDMA had 57 percent of the US market, whereas 14 percent of the market was on TDMA.[16]

International [ edit ]

In 1991, Qualcomm and the Electronics and Telecommunications Research Institute (ETRI) agreed to jointly develop CDMA technologies for the Korean telecommunications infrastructure.[60][61] A CDMA standard was adopted as the national wireless standard in Korea in May 1993[7] with commercial CDMA networks being launched in 1996.[61][60] CDMA networks were also launched in Argentina, Brazil, Mexico, India, and Venezuela.[62][63] Qualcomm entered the Russian and Latin American markets in 2005.[7] By 2007, Qualcomm’s technology was in cell phone networks in more than 105 countries.[62] Qualcomm also formed licensing agreements with Nokia in Europe, Nortel in Canada, and with Matsushita and Mitsubishi in Japan.[9]

Qualcomm entered the Chinese market through a partnership with China Unicom in 2000,[9] which launched the first CDMA-based network in China in 2003.[63] China became a major market for Qualcomm’s semiconductor products, representing more than fifty percent of its revenues,[64] but also the source of many legal disputes regarding Qualcomm’s intellectual property.[65] By 2007, $500 million of Qualcomm’s annual revenues were coming from Korean manufacturers.[66]

Manufacturing [ edit ]

Initially, Qualcomm’s manufacturing operations were limited to a small ASIC design and manufacturing team to support the Omnitracs system.[7] Qualcomm was forced to expand into manufacturing in the 1990s in order to produce the hardware carriers needed to implement CDMA networks that used Qualcomm’s intellectual property.[7] Qualcomm’s first large manufacturing project was in May 1993, in a deal to provide 36,000 CDMA phones to US West.[7][54]

For a time, Qualcomm experienced delays and other manufacturing problems, because it was in-experienced with mass manufacturing.[9] In 1994, Qualcomm partnered with Northern Telecom and formed a joint partnership with Sony, in order to leverage their manufacturing expertise.[52] Nokia, Samsung and Motorola introduced their own CDMA phones in 1997.[52] Qualcomm’s manufacturing business was losing money due to large capital equipment costs and declining prices caused by competition.[52][49][7] Also, in March 1997, after Qualcomm introduced its Q phone, Motorola initiated a lawsuit (settled out of court in 2000) for allegedly copying the design of its Startac phone.[67][68]

In December 1999, Qualcomm sold its manufacturing interests to Kyocera Corporation, a Japanese CDMA manufacturer and Qualcomm licensee.[69][70] Qualcomm’s infrastructure division was sold to competitor Ericsson in 1999 as part of an out-of-court agreement for a CDMA patent dispute that started in 1996.[71][72] The sale of the infrastructure division marked the beginning of an increase in Qualcomm’s stock price and stronger financial performance, but many of the 1,200 employees involved were discontented working for a competitor and losing their stock options.[71][73] This led to a protracted legal dispute regarding employee stock options, resulting in $74 million in settlements by 2005.[7]

3G [ edit ]

3G standards were expected to force prior TDMA carriers onto CDMA, in order to meet 3G bandwidth goals.[49][74] The two largest GSM manufacturers, Nokia and Ericsson, advocated for a greater role for GSM,[75] in order to negotiate lower royalty prices from Qualcomm.[74] In 1998, the European Telecommunications Standards Institute (ETSI) voted in support of the WCDMA standard, which relied less on Qualcomm’s CDMA patents.[76] Qualcomm responded by refusing to license its intellectual property for the standard.[74]

The Telecommunications Industry Association (TIA) and the Third Generation Partnership Program 2, advocated for a competing CDMA-2000 standard developed primarily by Qualcomm.[77][78] American and European politicians advocated for the CDMA-2000 and WCDMA standards respectively.[7][74] The ITU said it would exclude Qualcomm’s CDMA technology from the 3G standards entirely if a patent dispute over the technology with Ericsson was not resolved.[7][79] The two reached an agreement out-of-court in 1999, one month before a deadline set by the ITU. Both companies agreed to cross-license their technology to each other[79]: 30 and to work together on 3G standards.[80]

A compromise was eventually reached whereby the ITU would initially endorse three standards: CDMA2000 1X, WCDMA and TD-SCDMA.[74] Qualcomm agreed to license its CDMA patents for variants such as WCDMA.[74] There were 240 million CDMA 3G subscribers by 2004 and 143 carriers in 67 countries by 2005.[54] Qualcomm claimed to own 38 percent of WCDMA’s essential patents, whereas European GSM interests sponsored a research paper alleging Qualcomm only owned 19 percent.[49]

Qualcomm consolidated its interests in telecommunications carriers, such as Cricket Communications and Pegaso into a holding company, Leap Wireless, in 1998.[81][9] Leap was spun-off later that year[82] and sold to AT&T in 2014.[82]

4G [ edit ]

Qualcomm initially advocated for the CDMA-based Ultra Mobile Broadband (UMB) standard for fourth generation wireless networks.[83] UMB wasn’t backwards compatible with prior CDMA networks and didn’t operate as well in narrow bandwidths as the LTE (long-term evolution) standard. No cellular networks adopted UMB.[84] Qualcomm halted development of UMB in 2005 and decided to support the LTE standard,[85][86] even though it didn’t rely as heavily on Qualcomm patents.[87] Then, Qualcomm purchased LTE-related patents through acquisitions.[88] By 2012, Qualcomm held 81 seminal patents used in 4G LTE standards, or 12.46 percent.[89]

Qualcomm also became more focused on using its intellectual property to manufacture semiconductors in a fabless manufacturing model.[90] A VLSI Technology Organization division was founded in 2004, followed by a DFX group in 2006, which did more of the manufacturing design in-house.[91] Qualcomm announced it was developing the Scorpion central processing unit (CPU) for mobile devices in November 2005.[92][93] This was followed by the first shipments of the Snapdragon system-on-chip product, which includes a CPU, GPS, graphics processing unit, camera support and other software and semiconductors,[94] in November 2007.[95] The Gobi family of modems for portable devices was released in 2008.[96][97] Gobi modems were embedded in many laptop brands[98][99] and Snapdragon system on chips were embedded into most Android devices.[100]

Qualcomm won a government auction in India in 2010 for $1 billion in spectrum and licenses from which to offer broadband services. It formed four joint ventures with Indian holding companies for this purpose. A 49 percent stake in the holding companies was acquired by Bharti in May 2012 and the remaining was acquired in October 2012[101] by AT&T.[102]

5G [ edit ]

According to Fortune Magazine, Qualcomm has been developing technologies for future 5G standards in three areas: radios that would use bandwidth from any network it has access to, creating larger ranges of spectrum by combining smaller pieces, and a set of services for internet of things applications.[103] Qualcomm’s first 5G modem chip was announced in October 2016[104] and a prototype was demonstrated in October 2017.[105] Qualcomm’s first 5G antennas were announced in July 2018.[106] As of 2018, Qualcomm has partnerships with 19 mobile device manufacturers and 18 carriers to commercialize 5G technology.[107] By late 2019, several phones were being sold with Qualcomm’s 5G technology incorporated.[108]

Software and other technology [ edit ]

Early software [ edit ]

Qualcomm acquired an email application called Eudora in 1991.[109] By 1996, Eudora was installed on 63 percent of PCs.[110] Microsoft Outlook eclipsed Eudora, since it was provided for free by default on Windows-based machines.[111] By 2003 Qualcomm’s Eudora was the most popular alternative to Microsoft Outlook, but still had only a five percent share of the market.[112] Software development for Eudora was retired in 2006.[111]

In 2001, Qualcomm introduced Brew, a smartphone app development service[113][114][115] with APIs to access contacts, billing, app-stores, or multimedia on the phone.[114] South Korean carrier KTFreeTel was the first to adopt the Brew system in November 2001, followed by Verizon in March 2002[116] for its “Get it Now” program. There were 2.5 million Brew users by the end of 2002 and 73 million in 2003.[54]

Other technology [ edit ]

In 2004, Qualcomm created a MediaFLO subsidiary to bring its FLO (forward link only) specification to market. Qualcomm built an $800 million MediaFLO network of cell towers to supplement carrier networks with one that is designed for multimedia.[117][118] In comparison to cellular towers that provide two-way communications with each cell phone individually, MediaFLO towers would broadcast multimedia content to mobile phones in a one-way broadcast.[119][120] Qualcomm also sold FLO-based semiconductors and licenses.[121][122]

Qualcomm created the FLO Forum standards group with 15 industry participants in July 2005.[123] Verizon was the first carrier to partner with MediaFlo in December 2005[120] for its Verizon Wireless’ V Cast TV,[124] which was followed by the AT&T Mobile TV service a couple months later.[125][126] The MediaFlo service was launched on Super Bowl Sunday in 2007.[127] Despite the interest the service got among carriers, it was unpopular among consumers.[127][128][129] The service required users to pay for a subscription and have phones that were equipped with special semiconductors.[128][129] The service was discontinued in 2011 and its spectrum was sold to AT&T for $1.93 billion.[128][129] Qualcomm rebooted the effort in 2013 with LTE Broadcast, which uses pre-existing cell towers to broadcast select content locally on a dedicated spectrum, such as during major sporting events.[128][130]

Based on technology acquired from Iridigm in 2004 for $170 million,[131] Qualcomm began commercializing Mirasol displays in 2007, which was expanded into eight products in 2008.[132] Mirasol uses natural light shining on a screen to provide lighting for the display, rather a backlight, in order to reduce power consumption.[133] The amount of space between the surface of the display and a mirror within a 10 micron-wide “interferometric modulator” determines the color of the reflected light.[134] Mirasol was eventually closed down after an attempt to revive it in 2013 in Toq watches.[135]

In June 2011, Qualcomm introduced AllJoyn, a wireless standard for communicating between devices like cell phones, televisions, air-conditioners, and refrigerators.[136][137][138] The Alljoyn technology was donated to the Linux Foundation in December 2013. Qualcomm and the Linux Foundation then formed the Allseen Alliance to administer the standard[136][139] and Qualcomm developed products that used the AllJoyn standard[140][141][142] In December 2011, Qualcomm formed a healthcare subsidiary called Qualcomm Life. Simultaneously, the subsidiary released a cloud-based service for managing clinical data called 2net and the Qualcomm Life Fund, which invests in wireless healthcare technology companies.[143][144] The subsidiary doubled its employee-count by acquiring HealthyCircles Inc., a healthcare IT company, the following May.[145] Qualcomm life was later sold to a private equity firm, Francisco Partners, in 2019.[146]

Developments since 2016 [ edit ]

In 2016, Qualcomm developed its first beta processor chip for servers and PCs called “Server Development Platform” and sent samples for testing.[147] In January 2017, a second generation data center and PC server chip called Centriq 2400 was released.[147] PC Magazine said the release was “historic” for Qualcomm, because it was a new market segment for the company.[148] Qualcomm also created a Qualcomm Datacenter Technologies subsidiary to focus on the PCs and servers market.[149] In 2017, Qualcomm introduced embedded technology for 3D cameras intended for augmented reality apps.[150] Qualcomm is also developing and demonstrating laptop processors and other parts, as of 2017.[151]

In 2000, Qualcomm formed a joint venture with Ford called Wingcast, which created telematics equipment for cars, but was unsuccessful and closed down two years later.[152][153][154] Qualcomm acquired the wireless electric car charging company, HaloIPT, in November 2011[155] and later sold the company to WiTricity in February 2019.[156] Qualcomm also started introducing Snapdragon system-on-chips[157] and Gobi modems[158] and other software or semiconductor products for self-driving cars and modern in-car computers.[159][160]

In 2020, Qualcomm hired Baidu Veteran, Nan Zhou, to head Qualcomm’s push into AI.[161]

Patents and patent disputes [ edit ]

In 2021, the World Intellectual Property Organization (WIPO)’s annual World Intellectual Property Indicators report ranked Qualcomm’s number of patent applications published under the PCT System as 5th in the world, with 2,173 patent applications being published during 2020.[162] This position is down from their previous ranking as 4th in 2019 with 2,127 applications.[163] In 2017, Qualcomm owned more than 130,000 current or pending patents.[5] An increase from the early 2000s when Qualcomm had more than 1,000 patents.[164][165] As the sole early investor in CDMA research and development, Qualcomm’s patent portfolio contains much of the intellectual property that is essential to CDMA technologies.[52]

Since many of Qualcomm’s patents are part of an industry standard, the company has agreed to license those patents under “fair, reasonable, and non-discriminatory” terms.[166] Qualcomm’s royalties come out to about 5% or $30 per mobile device.[5] According to Fortune Magazine, this is about 5–10 times more than what is typically charged by other patent-holders.[166] Qualcomm says its patents are more expensive because they are more important and its pricing is within the range of common licensing practices.[166] However, competitors, clients, and regulators often allege Qualcomm charges unreasonable rates or engages in unfair competition for mandatory patents.[167]

Broadcom [ edit ]

In 2005, Broadcom and Qualcomm were unable to reach an agreement on cross-licensing their intellectual property,[168] and Broadcom sued Qualcomm alleging it was breaching ten Broadcom patents.[169][170] Broadcom asked the International Trade Commission to prohibit importing the affected technology.[169][171] A separate lawsuit alleged Qualcomm was threatening to withhold UMTS patent licenses against manufacturers that bought their semiconductors from competitors, in violation of the standards agreement.[172][173][174]

Qualcomm alleged Broadcom was using litigation as a negotiation tactic and that it would respond with its own lawsuits.[173][175] Qualcomm sued Broadcom, alleging it was using seven Qualcomm patents without permission.[176] By late 2006, more than 20 lawsuits had been filed between the two parties and both sides claimed to be winning.[177]

In September 2006, a New Jersey court judge ruled that Qualcomm’s patent monopoly was an inherent aspect of creating industry standards and that Qualcomm’s pricing practices were lawful.[177][178] In May 2007, a jury ordered Qualcomm to pay Broadcom $19.6 million for infringing on three Broadcom patents.[179] In June 2007, the ITC ruled that Qualcomm had infringed on at least one Broadcom patent and banned corresponding imports.[170][180] Qualcomm and Broadcom reached a settlement in April 2009, resulting in a cross-licensing agreement, a dismissal of all litigation and Qualcomm paying $891 million over four years.[181]

During the litigation, Qualcomm claimed it had never participated in the JVT standards-setting process.[182]: 153 However, an engineer’s testimony led to discovery of 21 JVT-related emails Qualcomm lawyers had withheld from the court, and 200,000 pages of JVT-related documents.[183] Qualcomm’s lawyers said the evidence was overlooked by accident, whereas the judge said it was gross misconduct.[183][184][185] Qualcomm was fined $8.5 million for legal misconduct.[186] On appeal, the court held that Qualcomm could only enforce the related patents against non-JVT members, based on the agreements signed to participate in JVT.[182][187]: 7

Nokia and Project Stockholm [ edit ]

Six large telecommunications companies[188] led by Nokia[189] filed a complaint against Qualcomm with the European Commission’s antitrust division[189] in October 2005.[190] They alleged Qualcomm was abusing its market position to charge unreasonable rates for its patents.[191][192] Qualcomm alleged the six companies were colluding together under the code name Project Stockholm in a legal strategy to negotiate lower rates.[193][194][195] These events led to a protracted legal dispute.[188]

Qualcomm filed a series of patent-infringement lawsuits against Nokia in Europe, Asia, the US, and with the ITC.[196][197] The parties initiated more than one dozen lawsuits against one another.[197] Several companies filed antitrust complaints against Qualcomm with the Korean Fair Trade Commission,[198] who initiated an investigation into Qualcomm’s practices in December 2006.[199] The dispute between Qualcomm and Nokia escalated, when their licensing agreement ended in April 2007.[200]

In February 2008, the two parties agreed to halt any new litigation until an initial ruling is made on the first lawsuit in Delaware.[183][197] Nokia won three consecutive court rulings with the German Federal Patent Court, the High Court in the United Kingdom, and the International Trade Commission respectively. Each found that Nokia was not infringing on Qualcomm’s patents.[189][192][201] In July 2008, Nokia and Qualcomm reached an out-of-court settlement that ended the dispute and created a 15-year cross-licensing agreement.[189]

Recent disputes [ edit ]

ParkerVision filed a lawsuit against Qualcomm in July 2011 alleging that it infringed on seven ParkerVision patents related to converting electromagnetic radio signals to lower frequencies.[202] A $173 million jury verdict against Qualcomm was overturned by a judge.[203]

In November 2013, the China National Development and Reform Commission initiated an anti-trust investigation into Qualcomm’s licensing division.[64][65] The Securities and Exchange Commission also started an investigation into whether Qualcomm breached antibribery laws through its activities in China.[65][204] The Chinese regulator raided Qualcomm’s Chinese offices in August 2013.[205] The dispute was settled in 2015 for $975 million.[206]

In late 2016 The Korea Fair Trade Commission alleged Qualcomm abused a “dominant market position” to charge cell phone manufacturers excessive royalties for patents and limit sales to companies selling competing semiconductor products.[207] The regulator gave Qualcomm a fine of $854 million, which the company said it will appeal.[207]

In April 2017, Qualcomm paid a $814.9 million settlement with BlackBerry as a refund for prepaid licensing fees.[208]

In October 2017, Taiwan’s Fair Trade Commission fined Qualcomm another $773 million.[209] In late 2018 Qualcomm paid a settlement to Taiwan for $93 million in fines and a promise to spend $700 million in the local Taiwan economy.[210][211]

Apple [ edit ]

In January 2017, the Federal Trade Commission (FTC) initiated an investigation into allegations that Qualcomm charged excessive royalties for patents that are “essential to industry standards”.[212] That same year, Apple initiated a $1 billion lawsuit against Qualcomm in the U.S. alleging Qualcomm overcharged for semiconductors and failed to pay $1 billion in rebates.[213][214] Apple also filed lawsuits in China[166] and the United Kingdom.[215]

Apple alleged Qualcomm was engaging in unfair competition by selling industry-standard patents at a discount rate in exchange for an exclusivity agreement for its semiconductor products.[216] An FTC report reached similar conclusions.[216] Qualcomm filed counter-claims alleging Apple made false and misleading statements to induce regulators to sue Qualcomm.[217] Qualcomm also sued Apple’s suppliers for allegedly not paying Qualcomm’s patent royalties, after Apple stopped reimbursing them for patent fees.[217][218] Qualcomm petitioned the International Trade Commission to prohibit imports of iPhones, on the premise that they contain stolen Qualcomm patents after Apple’s suppliers stopped paying.[219]

In August 2017, the International Trade Commission responded to Qualcomm’s complaints by starting an investigation of Apple’s use of Qualcomm patents without royalties.[220] Qualcomm also filed suit against Apple in China for alleged patent infringement in October 2017.[221] The following month, Apple counter-sued, alleging Qualcomm was using patented Apple technology in its Android components.[222]

In December 2018, Chinese[223] and German[224] courts held that Apple infringed on Qualcomm patents and banned sales of certain iPhones. Some patents were held to be invalid,[225] while others were infringed by Apple.[226]

In April 2019, Apple and Qualcomm reached an agreement to cease all litigation and sign a six-year licensing agreement.[227] The settlement included a one-time payment from Apple of about $4.5 to $4.7 billion.[228] Terms of the six-year licensing agreement were not disclosed, but the licensing fees were expected to increase revenues by $2 per-share.[227][228]

In January 2018, the European Competition Commission fined Qualcomm $1.2 billion for an arrangement to use Qualcomm chips exclusively in Apple’s mobile products.[229][230][231] Qualcomm is appealing the decision.[229][230][231] In June 2022, Qualcomm announced the company had won its appeal against $1+ billion European Union antitrust fine. The appeal highlighted that Apple as a company had no technical alternative other than to use Qualcomm’s LTE chipsets.[232]

Federal Trade Commission [ edit ]

Stemming from the investigation that led to the Apple lawsuit actions, the FTC filed suit against Qualcomm in 2017 alleging it engaged in antitrust behavior due to its monopoly on wireless broadband technology. The complaints filed by the FTC included that Qualcomm charged “disproportionately high” patent royalty rates to phone manufacturers and refused to sell them broadband chips if they did not license the patents, a policy referred to as “no license, no chips”, that Qualcomm refused to license the patent to other chip manufacturers as to maintain their monopoly, and that Qualcomm purposely offered Apple a lower license cost to use their chips exclusively, locking other competitors as well as wireless service providers out of Apple’s lucrative market.[233] The trial starting in January 2019, heard by Judge Lucy Koh of the federal Northern District Court that also oversaw the Apple case. Judge Koh ruled in May 2019 against Qualcomm, asserting that Qualcomm’s practices did violate antitrust. As part of the ruling, Qualcomm was forced to stop its “no license, no chips” bundling with phone manufacturers, and was required to license its patents to other chip manufacturers. As Qualcomm had expressed its intent to appeal, a panel of judges on the 9th circuit of appeals stayed the orders pending the litigation action.[234]

Qualcomm appealed to the Ninth Circuit, which reversed the decision in August 2020. The Ninth Circuit determined that Judge Koh’s decision strayed beyond the scope of antitrust law and that whether Qualcomm’s patent licensing may be considered reasonable and non-discriminatory licensing does not fall within the scope of antitrust law, but rather is a matter of contract and patent law. The court concluded that the FTC failed to meet its burden of proof and that Qualcomm’s business practices were better characterized as “hypercompetitive” rather than “anticompetitive”.[235][236][237]

Operations and market-share [ edit ]

Qualcomm develops software, semiconductor designs, patented intellectual property, development tools and services, but does not manufacture physical products like phones or infrastructure equipment.[238] The company’s revenues are derived from licensing fees for use of its intellectual property, sales of semiconductor products that are based on its designs, and from other wireless hardware, software or services.[239]

Qualcomm divides its business into three categories:[240]

QCT (Qualcomm CDMA Technologies): CDMA wireless products; 80% of revenue

QTL (Qualcomm Technology Licensing): Licensing; 19% of revenue

QSI (Qualcomm strategic initiatives): Investing in other tech companies; less than 1% of revenue

Qualcomm is a predominantly fabless provider of semiconductor products for wireless communications and data transfer in portable devices.[241] According to the analyst firm Strategy Analytics, Qualcomm has a 39 percent market-share for smartphone application processors and a 50 percent market-share of baseband processors.[242] Its share of the market for application processors on tablets is 18 percent.[243] According to analyst firm ABI Research, Qualcomm has a 65 percent market-share in LTE baseband.[244] Qualcomm also provides licenses to use its patents, many of which are critical to the CDMA2000, TD-SCDMA and WCDMA wireless standards.[245] The company is estimated to earn $20 for every smartphone sold.[246]: 64

Qualcomm is the largest public company in San Diego.[247][10] It has a philanthropic arm called The Qualcomm Foundation.[248][249] A January 2013 lawsuit resulted in Qualcomm voluntarily adopting a policy of disclosing its political contributions. According to The New York Times, Qualcomm’s new disclosure policy was praised by transparency advocates.[250][251]

See also [ edit ]

Fabless Semiconductor Association

The Fabless Semiconductor Association is hosting a luncheon on Lowering the Cost of Assembly in the New Business Era.

Rabbit Semiconductor is a member of the Fabless Semiconductor Association and is located in Davis, Calif., 70 miles east of San Francisco.

Internet Machines was named a 2001 Fabless Start-Up of the Year by the Fabless Semiconductor Association .

Talk about timely: The Fabless Semiconductor Association (ESA), San Jose, California, had already launched a study on corporate governance when the wave of business scandals hit.

The Fabless Semiconductor Association Supplier Expo 2001 is geared to establishing global partnerships within the semiconductor industry and its associated supply chains.

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