Image source: Qualcomm.
Shares of Qualcomm (NASDAQ: QCOM ) fell 3.9% in after-hours trading, following the release of mixed results for the second quarter of fiscal year 2014. Guidance for the coming quarter also raised more questions than it answered.
Qualcomm's sales increased 4% year over year to $6.4 billion, driving a 12% increase in non-GAAP earnings per share. Landing at $1.31 per share, the earnings result exceeded Wall Street's $1.22 target by a fair margin, while revenues fell just short of the $6.5 billion consensus.
Semiconductor sales increased by 8% year over year while licensing revenues grew by 1%.
In the third quarter, Qualcomm expects to see adjusted earnings of approximately $1.20 per share on $6.5 billion in sales. Both of these numbers sit below the current analyst view. Nevertheless, management held full-year revenue guidance steady while bumping up the earnings range by $0.05 per share. The $5.15 midpoint of the new 2014 earnings guidance is just a hair richer than current analyst projections.
Best Gold Companies To Buy For 2015: Celestica Inc (CLS)
Celestica Inc. (Celestica), incorporated on September 27, 1996, is a provider of supply chain solutions globally to original equipment manufacturers (OEMs) and service providers in the communications, consumer, computing and diversified end markets. The Company has operating network in Americas, Asia and Europe. The products and services it provides serve a range of end products, including smartphones; servers; networking, wireless and telecommunications equipment; storage devices; aerospace and defense electronics, such as in-flight entertainment and guidance systems; healthcare products; audiovisual equipment; printer supplies; peripherals; semiconductor capital equipment, and a range of industrial and green technology electronic equipment, including solar panels and inverters. In June 2011, Celestica acquired the semiconductor equipment contract manufacturing operations of Brooks Automation, Inc. In September 2012, the Company acquired D&H Manufacturing Company. D&H is a manufacturer of precision machined components and assemblies, primarily for the semiconductor capital equipment market.
Celestica offers a range of services, including design, manufacturing, engineering, order fulfillment, logistics and after-market services. The Company uses enterprise resource planning and supply chain management systems to optimize materials management from suppliers through to its customers.
Its global design services and solutions architects are focused on opportunities that span the entire product lifecycle. It also leverages its CoreSim Technology to minimize design revisions. It has developed its Green Services to help its customers comply with environmental legislation, such as those relating to the removal of hazardous substances and waste management/recycling. Its services help the customers design, prototype, introduce, manufacture, test, ship, takeback, repair, refurbish, reuse, recycle and properly dispose of end-of-life (EOL) products. Prototyping is a critical early-stage p! rocess in the development of new products. It uses technologies in the assembly and testing of the products. Its failure analysis capabilities concentrate on identifying the root cause of product failures and determining corrective actions. It has a management system that focuses on continual process improvement.
The Company competes with Benchmark Electronics, Inc., Flextronics International Ltd., Hon Hai Precision Industry Co., Ltd., Jabil Circuit, Inc., Plexus Corp. and Sanmina-SCI Corporation.
Advisors' Opinion:- [By Seth Jayson]
Celestica (NYSE: CLS ) reported earnings on April 23. Here are the numbers you need to know.
The 10-second takeaway
For the quarter ended March 31 (Q1), Celestica met expectations on revenues and beat expectations on earnings per share.
Top 10 Semiconductor Companies To Own For 2014: Universal Display Corp (OLED)
Universal Display Corporation, incorporated on April, 24, 1985, is engaged in the research, development and commercialization of organic light emitting diode (OLED) technologies and materials for use in flat panel display, solid state lighting and other product applications. The Company�� primary business strategy is to develop and license its OLED technologies to product manufacturers for use in these applications. Its primary business is to develop and license its OLED technologies to manufacturers of products for display applications, such as cell phones, portable media devices, tablets, laptop computers and televisions, and specialty and general lighting products; and develop new OLED materials and sell the materials to those product manufacturers. The Company sells its OLED materials to customers for evaluation and use in commercial OLED products. As of December 31, 2012, the Company owns, exclusively license or have the sole right to sublicense more than 3,000 patents issued and pending worldwide. On July 23, 2012, the Company entered into a Patent Sale Agreement (the Agreement) with FUJIFILM. Under the Agreement, FUJIFILM sold more than 1,200 OLED related patents and patent applications.
Phosphorescent Organic Light Emitting Diode Technologies
Phosphorescent OLEDs utilize specialized materials and device structures that allow OLEDs to emit light through a process known as phosphorescence. Traditional fluorescent OLEDs emit light through an inherently less efficient process. Theory and experiment show that phosphorescent OLEDs exhibit device efficiencies up to four times higher than those exhibited by fluorescent OLEDs. Phosphorescence substantially reduces the power requirements of an OLED and is potentially useful in displays for hand-held devices, such as Smartphone��, where battery power is often a limiting factor. Phosphorescence is also important for area displays such as televisions, where higher device efficiency and lower heat generation may enable longer ! product lifetimes and increased energy efficiency.
Additional Proprietary Organic Light Emitting Diode Technologies
Additional OLED Technologies include FOLED Flexible OLEDs, Thin-Film Encapsulation, UniversalP2OLED Printable Phosphorescent OLEDs, OVJP Organic Vapor Jet Printing, OVPD Organic Vapor Phase Deposition and TOLED Transparent OLEDs. The Company is working on a number of technologies required for the fabrication of OLEDs on flexible substrates. As of December 31, 2012, it was conducting research and development on FOLED technologies internally, under several of its United States government programs and in connection with the government-sponsored Flexible Display Center at Arizona State University (ASU). The Company announced its, patented encapsulation technology for the packaging of flexible OLEDs and other thin-film devices, as well as for use as a barrier film for plastic substrates. Its approach for manufacturing a small molecule OLED, including a PHOLED, is based on a vacuum thermal evaporation (VTE) process.
The Company has partnered with Aixtron AG, which is a manufacturer of metal-organic chemical vapor deposition equipment, to develop and qualify equipment for the fabrication of OLED displays utilizing the OVPD process. It has developed a technology for the fabrication of OLEDs that have transparent cathodes. TOLEDs use a transparent cathode and either a transparent, reflective or opaque metal anode.
Organic Light Emitting Diode Materials Supply Business
The Company supplies its proprietary UniversalPHOLED materials to display manufacturers and others. The Company qualifies its materials in OLED devices before shipment in order to ensure that they meet required specifications. During 2012, the Company continued supplying its proprietary UniversalPHOLED materials to SDC for use in its commercial AMOLED display products and for its development efforts. During 2012, the Company also supplied its UniversalPHOLED materials to! LG Displ! ay for use in its commercial AMOLED display products, to Tohoku Pioneer for use in its commercial PMOLED display products, and Konica Minolta for its manufacture of commercial OLED lighting products. During 2012, the Company also supplied its proprietary OLED materials to these and various other product manufacturers for evaluation and for purposes of development, manufacturing qualification and product testing.
The Company competes with Eastman Kodak Company (Kodak), Cambridge Display Technology, Ltd. (CDT), Sumitomo Chemical Company (Sumitomo), Idemitsu Kosan Co., Ltd. (Idemitsu Kosan), Merck KGaA and BASF Corporation.
Advisors' Opinion:- [By Steve Symington]
Just a few days ago, I singled out OLED technologist Universal Display (NASDAQ: OLED ) as one of two stocks to buy for its massive upside over the next five years.
- [By Steve Symington and Alison Southwick]
Shares of Universal Display (NASDAQ: OLED ) have fallen more than 15% since the company reported disappointing earnings in May, but Mr. Market may have gotten this one wrong, says Fool contributor Steve Symington in the following interview with the Fool's Alison Southwick.
- [By Will Ashworth]
However, the need for third-party logistics isn’t going away, and Echo Global Logistics is showing clear signs of strong financial performance. At some point, ECHO stock will start catching up in a hurry.
Best Stocks #2 (Small Cap): Universal Display (OLED)
There are question marks swirling around Universal Display (OLED) due to a recent European Patent Office decision to revoke European Patent 238, which previously had been allowed by a lower EPO.
Top 10 Semiconductor Companies To Own For 2014: ARM Holdings PLC (ARMH)
ARM Holdings plc (ARM), incorporated on October 16, 1990, designs microprocessors, physical intellectual property (IP) and related technology and software, and sells development tools. As of December 31, 2012, the Company operated in three business segments: the Processor Division (PD), the Physical IP Division (PIPD) and the System Design Division (SDD). ARM licenses and sells its technology and products to international electronics companies, which in turn manufacture, markets and sells microprocessors, application-specific integrated circuits (ASICs) and application-specific standard processors (ASSPs) based on ARM�� technology to systems companies for incorporation into a range of end products. It also licenses and sells development tools directly to systems companies and provides support services to its licensees, systems companies and other systems designers.
ARM processor architecture and physical IP is used in embedded microprocessor applications, including cellular phones, digital televisions, mobile computers and personal computer peripherals, smart cards and microcontrollers. ARM�� principal geographic markets are Europe, the United States and Asia Pacific. ARM�� product offering includes microprocessor Cores: RISC microprocessor cores, including specific functions, such as video and graphics IP and on-chip fabric IP; embedded software; physical IP; development tools, and support and maintenance services.
Processor Division
The PD encompasses those resources that are centered on microprocessor cores, including specific functions, such as graphics IP, fabric IP, embedded software IP and configurable digital signal processing (DSP) IP. Service revenues consist of design consulting services and revenues from support, maintenance and training.
Physical IP Division
The PIPD is focused on building blocks for translation of a circuit design into actual silicon. During the year ended December 31, 2012, the Company�� total av! erage PIPD headcount was 557. ARM is a provider of physical IP components for the design and manufacture of integrated circuits, including systems-on-chip (SoCs). ARM Artisan physical IP products include embedded memory, standard cell and input/output components. Artisan physical IP also includes a limited portfolio of analog and mixed-signal products. ARM�� physical IP components are developed for a range of process geometries ranging from 20 nanometer - 250 nanometer. ARM licenses its products to customers for the design and manufacture of integrated circuits used in complex, high-volume applications, such as portable computing devices, communication systems, cellular phones, microcontrollers, consumer multimedia products, automotive electronics, personal computers and workstations and many others.
ARM�� embedded memory components include random access memories, read only memories and register files. These memories are provided in the form of a configurable memory compiler, which allows the customer to generate the appropriate configuration for the given application. ARM�� memory components include many configurable features, such as power-down modes, low-voltage data retention and fully static operation, as well as different transistor options to trade off performance and power. In addition, ARM�� memory components include built-in test interfaces that support the industry test methodologies and tools. ARM memory components also offer redundant storage elements.
ARM�� memory components are designed to enable the chip designer maximum flexibility to achieve the optimum power, performance, and density trade-off. ARM offers standard cell components that are optimized for high performance, high density or ultra high density. ARM logic products deliver optimal performance, power and area when building ARM Processors, Graphics, Video and Fabric IP along with general SoC subsystem implementation. ARM delivers physical interface for a range of DDR SDRAM (double-data rate s! ynchronou! s dynamic random-access memory) applications ranging from mission critical applications to low-power memory sub-systems. Silicon on Insulator (SOI) products is an alternative methodology to traditional semiconductor fabrication techniques.
System Design Division
The SDD is focused on the tools and models used to create and debug software and system-on-chip (SoC) designs. ARM�� software development tools help a software design engineer deliver products right the first time. Engineers use these tools in the design and deployment of code, from applications running on open operating systems right through to low-level firmware. The ARM Development Studio is a hardware components that allow the software designer to connect to a real target system and control the system for the purposes of finding errors in the software. The ARM DSTREAM unit allows the software developer to control the software running on the prototype product and examine the internal state of the prototype product. ARM Development Boards are ideal systems for prototyping ARM-based products. The ARM Microcontroller Development Kit supports ARM-based microcontrollers and 8051-based microcontrollers from companies, such as Analog Devices, Atmel, Freescale, Fujitsu, NXP, Samsung, Sharp, STMicroelectronics, Texas Instruments and Toshiba. The ARM Microcontroller Development Kit is used by developers who are building products and writing software using standard off-the-shelf microcontrollers.
The ARM Microprocessor Families
ARM architecture processors offers a range of performance options in the ARM7 family, ARM9 family, ARM11 family, ARM Cortex family and ARM SecurCore family. The ARM architecture gives systems designers a choice of processor cores at different performance/price points. The ARM7 offers 32-bit architecture capable of operating from 8/16-bit memory on an 8/16-bit bus through the implementation of the Thumb instruction set. The ARM9 family consists of a range of microprocessors in ! the 150-2! 50MHz range. Each processor has been designed for a specific application or function, such as an application processor for a feature phone or running a wireless fidelity (WiFi) protocol stack. The ARM9 family consists of a range of microprocessors in the 150-250 megahertz range. The ARM11 family consists of a range of microprocessors in the 300-600 megahertz range. ARM Cortex family is ARM�� family of processor cores based on version 7 of the ARM Architecture. The family is split into three series: A Series, A Series and M Series.
Advisors' Opinion:- [By Michael A. Robinson]
ARM Holdings PLC (Nasdaq ADR: ARMH) - one of the world's dominant mobile-device chip companies - bought a small Finnish software startup called Sensinode Oy in a deal whose price wasn't reported.
- [By Paul Ausick]
ARM Holdings PLC (NASDAQ: ARMH) saw an 18.8% drop in short interest to 5.61 million shares, which represents about 1.2% of the total float. There is no date scheduled yet for the company’s earnings announcement, but analysts expect EPS of $0.26 on revenues of $295.94 million. Both numbers are above the company’s year-ago results.
- [By Piyush Arora]
AMD may have an ace up its sleeve, however. The chipmaker intends to aggressively capture the server market with its ARM (NASDAQ: ARMH ) -based Opteron offerings. In my opinion, this product direction has the potential to propel AMD's growth going forward.
- [By Kofi Bofah]
The Apple A7 64-bit system-on-a-chip (SoC) line is based upon ARM (ARMH) architecture. Apple has designed its 1.3 GHz dual-core Cyclone CPU around the ARMv8-A instruction set. In terms of battery power, the A7 can run the iPhone 5S for 10 hours worth of 3G talk-time, and for 250 hours during stand-by mode. The Apple A7 chip is produced through a 28 nm manufacturing process at Samsung (SSNLF). The A7 gate pitch, or distance between each transistor, is now 114 nm, in comparison to the 123 nm mark of the A6 chip. Apple executives claim that the A7 is twice is fast as its A6 predecessor.
Top 10 Semiconductor Companies To Own For 2014: M/A-COM Technology Solutions Holdings Inc (MTSI)
M/A-COM Technology Solutions Holdings, Inc. (M/A-COM), incorporated on March 25, 2009, is a provider of high-performance analog semiconductor solutions for uses in wireless and wireline applications across the radio frequency (RF), microwave and millimeter wave spectrum. The Company manages has one segment, which is semiconductors. The Company offers over 2,700 standard and custom devices, which includes integrated circuits (IC), multi-chip modules, power pallets and transistors, diodes, switches and switch limiters, passive and active components and complete subsystems, across 37 product lines serving over 6,000 end customers in four primary markets. The Company's semiconductor products are electronic components that the Company's customers incorporate into their larger electronic systems, such as point-to-point wireless backhaul radios, radar, automobile navigation systems, digital cable television (CATV) set-top boxes, magnetic resonance imaging systems and unmanned aerial vehicles. In February 2014, M/A-COM Technology Solutions Holdings Inc announced that its subsidiary Mindspeed Technologies Inc completed the sale of assets of its wireless infrastructure business unit to Intel Corporation.
The Company's primary markets are Networks, which includes CATV, cellular backhaul, cellular infrastructure and fiber optic applications; Aerospace and Defense (A&D); Automotive, which includes global positioning system (GPS) modules sold to the automotive industry; and Multi-market, which includes industrial, medical, mobile communications and scientific applications. The Company operates a single Gallium Arsenide (GaAs) and silicon semiconductor fab at its Lowell, Massachusetts headquarters, which the Company is in the process of updating to include Gallium Nitride (GaN) fabrication operations as well. The Company also utilizes external semiconductor foundries to supply the Company with additional capacity in periods of high demand and to provide the Company access to additional process technolog! ies. The ability to utilize a broad array of internal process technologies as well as commercially available foundry technologies allows the Company to select the appropriate technology to solve the Company's customers' needs.
The Company offers high-performance analog semiconductor products for both wireless and wireline applications across the frequency spectrum from RF to millimeterwave. The Company regularly develops high-value products to serve its customers in four primary markets: Networks, A&D, Multi-market and Automotives.
Aerospace & Defense
In the A&D market, military applications require more advanced electronic systems, such as radar warning receivers, communications data links and tactical radios, unmanned aerial vehicles (UAVs), RF jammers, electronic countermeasures and smart munitions. Military applications are becoming more sophisticated, favoring higher performance semiconductor ICs based on GaAs and GaN technology due to their high power density, improved power efficiency and broadband capability. Radar systems for mapping and targeting missions are undergoing a transition from existing mechanically-scanned radar products to a new generation of active electronically-scanned array (AESA) based products. Consisting of hundreds or thousands of transmit/receive modules commonly based on GaAs and increasingly on GaN technology, AESAs deliver greater speed, range, resolution and reliability over mechanically-scanned radar products that utilize a single transmitter and receiver with mechanical steering. Military communications employing wireless infrastructure and tactical radios in the field remain critical for allowing geographically dispersed users to exchange information quickly and efficiently. UAVs and their underlying semiconductor content requires designs to meet rigorous specifications for high performance, small size, and low power consumption.
Automotive
The Automotive category includes GPS modules the Company sel! ls to the! automotive industry. Semiconductor content in automobiles is projected to grow in order to offer connectivity, safety, performance and navigation features.
Multi-market
In Multi-market, the Company's products are used in industrial, medical, mobile communications, test and measurement and scientific applications. In the medical industry, the Company's custom designed non-magnetic diode product line is a critical component for certain MRI applications. The Company offers a broad range of standard and custom ICs, modules and complete subsystems across 37 product lines. The Company's product portfolio consists of more than 2,700 products including the key product platforms: power pallets and transistors, ICs, diodes, switches and switch limiters, passive and active components, multi-chip modules, and complete subsystems. Many of the Company's product platforms are leveraged across multiple markets and applications. For example, the Company's applications with regard to power transistor technology is leveraged across both scientific laboratory equipment applications and commercial and defense radar system applications. The Company's diode technology is used in switch filter banks of military tactical radios as well as medical imaging MRI systems.
The Company competes with Hittite Microwave Corporation, Sumitomo Electric Device Innovations, Inc., RF Micro Devices, Inc. (RFMD), Avago, Inc. (Avago), Aeroflex, Inc. (Aeroflex), Microsemi Corporation (Microsemi), TriQuint and Skyworks Solutions, Inc.
Advisors' Opinion:- [By Monica Gerson]
Mindspeed Technologies (NASDAQ: MSPD) surged 69.02% to $5.02 in the pre-market session after M/A-Com Technology Solutions Holdings (NASDAQ: MTSI) announced its plans to acquire Mindspeed Technologies.
- [By Seth Jayson]
M/A-Com Technology Solutions Holdings (Nasdaq: MTSI ) reported earnings on April 30. Here are the numbers you need to know.
The 10-second takeaway
For the quarter ended March 29 (Q2), M/A-Com Technology Solutions Holdings met expectations on revenues and beat expectations on earnings per share. - [By Lauren Pollock]
M/A-COM Technology Solutions Holdings Inc.(MTSI) agreed to acquire semiconductor manufacturer Mindspeed Technologies Inc.(MSPD) in a deal valued at $272 million, expanding the company’s markets to include enterprise applications. Mindspeed shares surged 70% to $5.04 premarket.
Top 10 Semiconductor Companies To Own For 2014: Intermolecular Inc (IMI)
Intermolecular, Inc. (Intermolecular), incorporated on June 16, 2004, is engaged in research and development and time-to-market for the semiconductor and clean-energy industries. The Company, through paid collaborative development programs (CDPs) with its customers, develops technology and intellectual property (IP) for its customers focused on advanced materials, processes, integration and device architectures. The Company provides its customers with technology through various fee arrangements and grants them rights to associated IP, primarily through royalty-bearing licenses. Through paid CDPs and its own development, the Company has established a portfolio of greater than 1,000 patents and patent applications. Its approach is broadly applicable to high-volume integrated device markets, which include the markets for semiconductors, flat glass coatings and glass-based devices, solar cells, light-emitting diodes (LEDs), flat-panel displays, advanced batteries and other energy efficiency applications.
As of December 31, 2012, the Company targets large, high-volume semiconductor and high-growth emerging clean energy markets, including DRAM, non-volatile memory (including flash memory and embedded memory), complex logic, flat glass coatings and glass-based devices, solar cells, LEDs and other energy efficiency applications. The Company�� customers include ATMI, Inc. (ATMI), Elpida Memory, Inc. (Elpida), First Solar. Inc. (First), GLOBALFOUNDRIES Singapore Pte. Ltd (GLOBALFOUNDRIES), Guardian Industries Corp. (Guardian), SanDisk Corporation (SanDisk), Taiwan Semiconductor Manufacturing Company (TSMC) and Toshiba Corporation (Toshiba). For the year ended December 31, 2012, the Company has received the majority of its revenue from customers in DRAM, flash memory, complex logic and energy-efficient applications in flat glass. The elements in HPC platform include Tempus HPC processing, automated characterization, and informatics and analysis software. Tempus HPC processing are used to process ! different experiments consisting of combinations of materials, processing parameters, sequencing and device structures. Automated characterization systems are used to characterize the substrates processed by its Tempus HPC processing tools. Informatics and analysis software are used to automate experiment generation, characterization, data analysis and reporting.
The Company�� HPC platform consists of its Tempus HPC processing tools, automated characterization and informatics and analysis software. The Company�� platform is purpose-built for Research and Development (R and D) using combinatorial process systems. Combinatorial processing is a methodology for discovery and development that employs parallel and other high-throughput experimentation, which allows R and D experimentation to be performed at speeds up to 100 times faster than traditional methods. The Company�� processing tools allows performing up to 192 experiments on a single substrate.
Advisors' Opinion:- [By Jake L'Ecuyer]
Leading and Lagging Sectors
Technology shares gained about 0.68 percent in today's trading. Meanwhile, top gainers in the sector included Intermolecular (NASDAQ: IMI), up 38.3 percent, and Infinera (NASDAQ: INFN), up 9.4 percent. In trading on Monday, utilities shares were relative laggards, down on the day by about 0.68 percent. - [By Jake L'Ecuyer]
Leading and Lagging Sectors
Technology shares gained about 0.68 percent in today's trading. Meanwhile, top gainers in the sector included Intermolecular (NASDAQ: IMI), up 38.3 percent, and Infinera (NASDAQ: INFN), up 9.4 percent. In trading on Monday, utilities shares were relative laggards, down on the day by about 0.68 percent.
Top 10 Semiconductor Companies To Own For 2014: Malaysian Pacific Industries Bhd (MPI)
Malaysian Pacific Industries Berhad (MPI) is an investment holding company. The principal activities of MPI, through its subsidiaries are manufacturing, assembling, testing and sale of integrated circuits, semiconductor devices, electronic components and lead frames to customers globally. The Company�� operating geographical segments include Asia, The United States of America, and Europe. The Company's subsidiaries include Carsem (M) Sdn Bhd, Recams Sdn Bhd, Carsem Holdings Limited, Carsem Semiconductor (Suzhou) Co., Ltd, Dynacraft Industries Sdn Bhd, Carter Realty Sdn Bhd, Carter Realty Sdn Bhd and Carsem Holdings (HK) Limited. Advisors' Opinion:- [By Sofia Horta e Costa]
Michael Page International Plc (MPI) increased 1.1 percent to 490.2 pence after Goldman Sachs Group Inc. upgraded the stock to buy from neutral, saying the recruitment firm will benefit from a pick-up in the European economy.
Top 10 Semiconductor Companies To Own For 2014: Advanced Semiconductor Engineering Inc (ASX)
Advanced Semiconductor Engineering, Inc. is principally engaged in the manufacture, assembly, processing, testing and distribution of integrated circuits (ICs). The Company provides semiconductor packaging and testing services, including plastic leaded chip carriers (PLCCs), quad flat packages (QFPs) and flip chip packaging technology, among others, which are applied in the manufacture of household electrical appliances, communication devices, automobile components, personal computers, set top boxes, servers, memory integrated circuits (ICs), mobile phones, digital cameras, game consoles, projectors, high definition (HD) televisions, wireless communication network products and power management ICs, among others. The Company operates its businesses primarily in Taiwan, Europe and the Americas. In August 2010, the Company acquired a 100% interest in EEMS Test Singapore.
The Company is focused on packaging and testing logic semiconductors. The Company offers its customers turnkey services, which consist of packaging, testing and direct shipment of semiconductors to end users designated by its customers. The Company�� global base of over 200 customers includes semiconductor companies across a range of end use applications, including Altera Corporation, ATI Technologies, Inc., Broadcom Corporation, Cambridge Silicon Radio Limited and Microsoft Corporation. During the year ended December 31, 2008, the Company�� packaging revenues accounted for 77.7% of its net revenues and its testing revenues accounted for 20.1% of its net revenues.
Packaging Services
The Company offers a range of package types to meet the requirements of its customers, with a focus on packaging solutions. Within its portfolio of package types, the Company focuses on the packaging of semiconductors. These include advanced leadframe-based package types, such as quad flat package, thin quad flat package, bump chip carrier and quad flat no-lead package, and package types based on substrates, such a! s flip-chip ball grid array (BGA) and other BGA types, as well as other packages, such as wafer-bumping products. Leadframe-based packages are packaged by connecting the die, using wire bonders, to the leadframe with gold wire. The Company�� leadframe-based packages include quad flat package (QFP)/ thin quad flat package (TQFP), quad flat no-lead package (QFN)/microchip carrier (MCC), advanced quad flat no-lead package (AQFN), bump chip carrier (BCC), small outline plastic package (SOP)/thin small outline plastic package (TSOP), small outline plastic j-bend package (SOJ), plastic leaded chip carrier (PLCC) and plastic dual in-line package (PDIP). Substrate-based packages employ the BGA design, which utilizes a substrate rather than a leadframe. It also assembles system-in-a-package products, which involve the integration of more than one chip into the same package. The Company�� substrate-based packages include Plastic BGA, Cavity Down BGA, Stacked-Die BGA, Flip-Chip BGA and land grid array (LGA).
The Company�� wafer-level packaging products include wafer level chip scale package (aCSP) and advanced wafer level package (aWLP). The Company offers module assembly services, which combine one or more packaged semiconductors with other components in an integrated module to enable functionality, typically using surface mount technology (SMT) machines and other machinery and equipment for system-level assembly. End use applications for modules include cellular phones, personal digital assistant (PDAs), wireless local area network (LAN) applications, bluetooth applications, camera modules, automotive applications and toys.
The Company provides module assembly services primarily at its facilities in Korea for radio frequency and power amplifier modules used in wireless communications and automotive applications. Interconnect materials connect the input/output on the semiconductor dies to the printed circuit board. Interconnect materials include substrate, which is a multi-layer m! iniature ! printed circuit board. The Company produces substrates for use in its packaging operations.
Testing Services
The Company provides a range of semiconductor testing services, including front-end engineering testing, wafer probing, final testing of logic/mixed-signal/radio frequency (RF) and memory semiconductors and other test-related services. The Company provides front-end engineering testing services, including customized software development, electrical design validation, and reliability and failure analysis. The Company provides final testing services for a variety of memory products, such as static random access memory (SRAM), dynamic random access memory (DRAM), single-bit erasable programmable read-only memory semiconductors and flash memory semiconductors.
The Company provides a range of additional test-related services, including burn-in testing, module sip testing, dry pack, tape and reel, and electric interface board and mechanical test tool design. The Company offers drop shipment services for shipment of semiconductors directly to end users designated by its customers.
Advisors' Opinion:- [By Jeff Reeves]
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Best Stocks to Buy for Around $5: Advanced Semiconductor Engineering (ASX)Advanced Semiconductor Engineering�(ASX) builds and distributes integrated circuits and other electronics. While that�� not as sexy as other chipmakers that play to mobile, it�� still a good business, considering the general demand for microchips in everything from cars to computers to TVs.
- [By Adam Haigh]
ASX Ltd. (ASX) posted the biggest weekly loss in 3 1/2 years, falling 6.1 percent to A$33.15, amid a A$553 million ($530 million) capital raising at the operator of Australia�� main stock exchange to ensure its clearing business complies with new regulations.
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