This week, 10 semiconductor stocks are improving their overall rating on Portfolio Grader. Each of these rates an “A” (“strong buy”) or “B” overall (“buy”).
This week, Mattson Technology, Inc. () is showing significant improvement as the company’s rating hops from a C (“hold”) to a B (“buy”). Mattson Technology designs, manufactures, and markets advanced fabrication equipment. In Portfolio Grader’s specific subcategories of Earnings Revisions and Sales Growth, MTSN also gets A’s. Shares of the stock have been changing hands at an unusually rapid pace, three times the rate of the week prior. .
Hot Semiconductor Companies To Watch For 2015: Applied Materials Inc.(AMAT)
Applied Materials, Inc. provides manufacturing equipment, services, and software to the semiconductor, flat panel display, solar photovoltaic (PV), and related industries worldwide. The company?s Silicon Systems Group segment offers a range of manufacturing equipment used to fabricate semiconductor chips or integrated circuits. This segment provides systems that perform primary processes used in chip fabrication, including atomic layer deposition, chemical vapor deposition, physical vapor deposition, electrochemical deposition, rapid thermal processing, chemical mechanical planarization, wet cleaning, and wafer metrology and inspection, as well as systems that etch or inspect circuit patterns on masks used in the photolithography process. Its Applied Global Services segment offers products and services designed to enhance the performance and productivity, and reduce the environmental impact of the fab operations of semiconductor, liquid crystal displays (LCDs), and solar P V manufacturers. The company?s Display segment provides products for manufacturing thin film transistor LCDs for televisions, personal computers (PCs), tablet PCs, smartphones, and other consumer-oriented electronic applications. Its Energy and Environmental Solutions segment offers manufacturing systems for the generation and conservation of energy, as well as manufacturing solutions for wafer-based crystalline silicon applications. This segment also provides roll-to-roll vacuum Web coating systems for deposition of a range of films on flexible substrates for functional, aesthetic, or optical properties; and roll-to-roll machine for depositing ultra-thin aluminum films for flexible packaging applications. The company serves manufacturers of semiconductor wafers and chips, flat panel LCDs, solar PV cells and modules, and other electronic devices. Applied Materials, Inc. was founded in 1967 and is headquartered in Santa Clara, California.
Advisors' Opinion:- [By Rex Crum]
Semiconductor-equipment maker Applied Materials Inc. (AMAT) �rose more than 7%, to $17.14, after the company said it would acquire Tokyo Electron Ltd. in an-all stock deal. Applied Materials Chief Executive Gary Dickerson will be CEO of the combined company.
Hot Semiconductor Companies To Watch For 2015: 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 Royston Wild]
I am currently looking at the dividend prospects of�ARM Holdings� (LSE: ARM ) (NASDAQ: ARMH ) and assessing whether the company is an appetizing pick for income investors.
- [By Justin Jaynes]
What I am curious about is who is building it? At this point, I'll pull a page from SA contributor Russ Fischer's playbook and think outside the box and say Samsung (my 100% speculation). The Wafer Supply Agreement was amended last year to break exclusivity from Global Foundries in March -- roughly 18 months ago, which happens to be the same time Mr. Feldman said takes to design a chip with ARM Holdings (ARMH). Review my last AMD article for an explanation of the WSA.
- [By Evan Niu, CFA]
A long and winding road
This search is why I'd previously invested in ARM Holdings (NASDAQ: ARMH ) , only to sell (prematurely in hindsight) due to concerns about monetization. I had doubts that ARM's role in the value chain was as envious as I initially thought, and subsequently redeployed my investing dollars into Qualcomm (NASDAQ: QCOM ) , an ARM licensee with a stranglehold on licensing, cellular basebands, and mobile applications processors (three for the price of one!). Qualcomm also has deep ties with Samsung, giving it exposure to the top smartphone makers in the world. No regrets there so far. - [By Steve Heller]
Filling the void
When Intel developed its x86 architecture, raw computing power was the primary objective. You can think of Intel's x86 architecture as the equivalent of an American-made muscle car of the 1960s -- a powerful, yet inefficient gas guzzler. This is contrary to chips based on ARM Holdings' (NASDAQ: ARMH ) architecture, which are more like your eco-friendly fuel-efficient vehicles.
Best Energy Stocks To Own Right Now: AT & S Austria Technologie & Systemtechnik AG (AUS)
AT & S Austria Technologie & Systemtechnik AG (AT&S) is an Austria-based company that is principally engaged in the production of printed circuit boards. The Company is divided into three core business units: Mobile Devices; Automotive, and Industrial. The Company�� product assortment ranges from single- and double-sided printed circuit boards to multilayer printed circuit boards. They are used as electromechanical linking elements, mainly in the telecommunication sector, automobile industry and medical technology applications, as well as defense and aerospace. AT&S operates production sites in Austria, India, China and Korea. It also maintains international sales offices, based in Austria, Ireland, Germany, the Czech Republic, France, Hungary and Belgium. As of March 31, 2011, the Company operated through its subsidiaries in India, Germany, Austria, China, Hong Kong, Japan, South Korea, Taiwan and the United States. Advisors' Opinion:- [By Triska Hamid]
Professors at the American University of Sharjah (AUS) are also looking at dental care with braces imbedded with a chip that monitor the movement of the fixtures and will communicate with the dentist's office if any of them are separated from the teeth.
Hot Semiconductor Companies To Watch For 2015: GigOptix Inc (GIG)
GigOptix, Inc. (GigOptix), incorporated on March 2008, is a supplier of semiconductor and electro-optical component products that enables high-speed end to end data streaming over optical fiber and wireless telecommunications and data-communications networks globally. The Company's products convert signals between electrical and optical formats for transmitting and receiving data over fiber optic networks and between electrical and high speed radio frequencies to enable the transmission and receipt of data over wireless networks. The Company is creating both optical telecommunications and data-communications applications for fast growing markets in 10 giga bytes per second (Gbps), 40Gbps and 100Gbps drivers, receiver integrated circuits (IC), electro-optic modulator components and multi-chip-modules (MCM), as well as E-band wireless data-communications applications for high speed mobile backhaul and other high capacity wireless data transport applications. During the year ended December 31, 2011, the Company shipped over 150 products to over 200 customers.
The Company offers a portfolio of 10Gbps and 40Gbps electro-optical products and is developing market for 100Gbps products. The Company provides bundled solutions that consist of a few of its products, such as modulator and driver. The Company also offers a comprehensive portfolio of Monolithic Microwave Integrated Circuit (MMIC) and application-specific integrated circuit (ASIC) products to support E-band wireless communication and defense markets. The Company has also developed 10Gbps vertical cavity surface-emitting laser (VCSEL) drivers and receivers for aerospace as well as outdoor, non-temperature controlled environments that enables higher capacity in its customers' next generation flight and data center systems.
The Company has a portfolio of products for telecommunications , data-communications, defenses and industrial applications designed for optical speeds from 3Gbps to over 100Gbps and for wireless frequencies! from zero giga hertz (GHz) to 86GHz. The Company's products support a range of data rates, protocols, transmission distances and industry standards.
The Company's portfolio consists of the product ranges, such as laser and modulator drivers for 10Gbps, 40Gbps and 100Gbps applications; receiver amplifiers or Trans-impedance Amplifiers (TIAs) for 10Gbps, 40Gbps and 100Gbps applications; VCSEL driver and receiver chipsets for 14 and 12 channel parallel optics applications from 3Gbps to 10Gbps; Electro-optic modulators based on the Company's TFPS technology suitable for various 40Gbps and 100Gbps modulation schemes, such as differential phase shift keying (DPSK), differential quadrature phase shift keying (DQPSK), RZ-DQPSK and DP-QPSK; wideband monolithic microwave integrated circuit (MMIC) amplifiers with flat gain response; high frequency MMIC Power Amplifiers with high gain and output power; high frequency passive attenuators and filters in small form factors, and standard cell, and structured ASIC and hybrid ASIC designs and manufacturing service for multiple markets offering information technology acquisition review (ITAR) compliance for defense applications. The Company designs and market products that amplifies electrical signals during both the transmission (amplifiers and optical drivers) and reception (TIAs) of optical signals as well as modulate optical signals in the transmission of data.
The Company's optical drivers amplify the input digital data stream that is used to modulate laser light either by direct modulation of the laser or by use of an external modulator that acts as a precise shutter to switch on and off light to create the optical data stream. The Company supplies an optimized component for each type of laser, modulator and photo-diode depending upon the speed, reach and required cost. The Company's microwave and millimeter wave amplifiers amplify small signal radio signals into more signals that can be transmitted over long distances to establish high t! hroughput! data connections or enable radar based applications. The Company's ASIC solutions are used in a number of applications such as defense and test and measurement applications to enable the high speed processing of complex signals.
The Company's product portfolio is designed to cover the range of solutions needed in these different modules. The Company's product portfolio consists of five product lines: GX Series, which includes serial drivers and TIA ICs devices for telecom and data-com markets; HX Series, which includes multi-channel driver and TIA ICs for short reach data-com and optical interconnect applications; LX Series, which includes TFPS modulators for high speed telecom and defense applications; EX Series, which includes amplifiers, filters and attenuators for microwave applications in defense and instrumentation, and CX Series, which includes family of ASIC solutions for custom integrated circuit design.
GX Series
The GigOptix GX Series of products services both the telecom and data-com markets with a broad portfolio of drivers and transimpedence amplifiers that address 10Gbps, 40Gbps and 100Gbps speeds over distances that range from 100 meters to 10,000 kilometers. The GX Series devices are used in FiberChannel, Ethernet, synchronous optical networking (SONET)/ synchronous digital hierarchy (SDH) components and those based upon the optical internetworking forum (OIF) standards.
HX Series
The GigOptix HX Series of products service the high performance computing (HPC), data-com and consumer markets with a portfolio of parallel VCSEL drivers and TIAs that address 3Gbps, 5Gbps,10Gbps, 14Gbps, 16Gbps and 25Gbps channel speeds over 100-300 meters distances in four and 12 channel configurations. The HX Series devices are used in HPC formats, Infiniband, Ethernet and optical high definition multimedia interface (HDMI) components.
LX Series
The GigOptix LX Series of products service the 40Gbps and above telecom! market f! or Mach-Zehnder modulators. The LX Series devices are based on the Company's TFPS EO material technology.
EX Series
The GigOptix EX Series of products leverages the high performance products acquired in the Endwave acquisition. In addition, it also includes the die and design techniques developed for the GX Series telecom and data-com drivers for related defense and instrumentation applications.
CX Series
The GigOptix CX Series of products offers a portfolio of distinct paths to digital and analog mixed signal ASICs with the capability of supporting designs of up to 10M gates in technologies ranging from 0.6 through 65nm. The CX Series uses the Company's technology in Structured and Hybrid ASICs to enable a generic ASIC solution that can be customized for a customer using only a few metal mask layers. The CX Series also offers ASIC services, including Analog and Mixed Signal IP into designs and taking customers designs from RTL or gate-level net list definitions to volume production with third party foundries.
The Company competes with TriQuint, Rohm, InPhi, Centellax, Semtech, Vitesse, M/A-Com, Avago, Emcore, Tyco Electronics, IPtronics. Avago, Emcore, Tyco Electronics, JDSU, Oclaro, Sumitomo, Fujitsu, Emcore, Oclaro, Hittite, Sumitomo, Hittite, RFMD, Northrop Grumman, On -Semiconductor, eSilicon, Open Silicon, Faraday, Toshiba and eASIC.
Advisors' Opinion:- [By Bryan Murphy]
It's admittedly overbought and due for a slight dip thanks to today's surge. But when you take a step back and look at GigOptix Inc. (NYSEMKT:GIG), there's actually a lot to be excited about if you've been mulling a trading in GIG. The trick will be getting the timing right.
Hot Semiconductor Companies To Watch For 2015: Micropac Industries Inc (MPAD)
Micropac Industries, Inc. (Micropac), incorporated on March 3, 1969, manufactures and distributes various types of hybrid microelectronic circuits, solid state relays, power operational amplifiers, and optoelectronic components and assemblies. Micropac�� products are used as components in a range of military, space and industrial systems, including aircraft instrumentation and navigation systems, power supplies, electronic controls, computers, medical devices, and high-temperature (200o degree Celsius) products. The Company�� products are either custom (being application-specific circuits designed and manufactured to meet the particular requirements of a single customer) or standard components. During the fiscal year ended December 31, 2011 (fiscal 2011), its custom-designed components accounted for approximately 34% of its revenue and standard components accounted for approximately 66% of its revenue.
Micropac occupies approximately 36,000 square feet of manufacturing, engineering and office space in Garland, Texas. The Company owns 31,200 square feet of that space and leases an additional 4,800 square feet. It also sub-contracts some manufacturing to Inmobiliaria San Jose De Ciuddad Juarez S.A. DE C.V, a maquila contract manufacturer in Juarez, Mexico.
Micropac provides microelectronic and optoelectronic components and assemblies along with contract electronic manufacturing services, and offers a range of products sold to the industrial, medical, military, aerospace and space markets. The Microcircuits product line includes custom microcircuits, solid state relays, power operational amplifiers, and regulators. During fiscal 2011, microcircuits product line accounted for 51% of its revenue and the optoelectronics product line accounted for 62% of its business respectively. The Company�� core technology is the packaging and interconnects of miniature electronic components, utilizing thick film and thin film substrates, forming microelectronics circuits. Other technologi! es include light emitting and light sensitive materials and products, including light emitting diodes and silicon phototransistors used in its optoelectronic components, and assemblies.
The Company�� basic products and technologies include custom design hybrid microelectronic circuits, solid state relays and power controllers, custom optoelectronic assemblies and components, optocouplers, light-emitting diodes, Hall-Effect devices, displays, power operational amplifiers, fiber optic components and assemblies, and high temperature (200o degree Celsius) products. Micropac�� products are primarily sold to original equipment manufacturers (OEM��) who serve major markets, which includes military/aerospace, such as aircraft instrumentation, guidance and navigations systems, control circuitry, power supplies and laser positioning; space, which include control circuitry, power monitoring and sensing, and industrial, which includes power control equipment and robotics.
The Company�� products are marketed throughout the United States and in Western Europe. During fiscal 2011, approximately 21% of the Company�� revenue was from international customers. The Company�� major customers include contractors to the United States Government. During fiscal 2010, sales to these customers for the Department of Defense (DOD) and National Aeronautics and Space Administration (NASA) contracts accounted for approximately 62% of its revenues. The Company�� customers are Lockheed Martin, Northrop Grumman, Boeing, Rockwell Int��, and NASA.
The Company compete with Teledyne Industries, Inc., MS Kennedy, Honeywell, Avago and International Rectifier.
Advisors' Opinion:- [By Geoff Gannon] % of NCAV, has similar (slightly better) z- and f-scores, a FCF margin of 6%, but has ROA of 28%.
ADDvantage (AEY) sells at 95% of NCAV, has similar (in the ballpark) scores and FCF and ROA of 23%.The slightly better businesses are currently more expensive in terms of price/NCAV. They have less asset-based downside protection, but they are better businesses.
How do you quantify and qualify what is cheap enough? To me, there's a big difference in relative cheapness in a company selling at 74% of NCAV versus one selling at 95%. I'm wondering if I'm putting too much weight on this cheapness measurement instead of acknowledging that any decent business selling at less than NCAV is cheap enough. Yet, one has to have some quantifiable idea of when something is not cheap enough anymore.
Can you help me put this into a unified framework?
Dan
There�� a great post over at Oddball Stocks called: �� Stock is a Business�� Read it. Then go over to Richard Beddard�� Interactive Investor Blog. Bookmark that blog. Read it religiously. He looks at Ben Graham type stocks in the U.K. And he looks at them not just as stocks but as pieces of a business.
Here�� what Richard said in a post called ��iving Up on Mastery of the Universe��
I need to know:
1. Whether the managers have made good decisions in the past, and whether their incentives work in the interests of the owners, because those kind of managers often add value to a company.
2. The products a company sells will still be in demand for years to come, because if they��e not then the past, which we know, does not tell us anything about the future, which we don��.
3. A company is financially strong enough to withstand the kinds of shocks companies typically experience bearing in mind some are more sensitive to events than others.
4. How to judge whether the share price undervalues the company, bearing in mind the preceding three factors.
Hot Semiconductor Companies To Watch For 2015: 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]
Advanced Semiconductor Engineering�(ASX) builds and distributes integrated circuits and other electronics. It�� not as sexy as some mobile chipmakers, but thankfully it doesn�� have to be — ASX is simply capitalizing on the general demand for microchips in everything from cars to computers to TVs.
- [By David Dittman]
Crown Resorts is a buy all the way up to USD16.50 on the Australian Securities Exchange (ASX) using the symbol CWN and on the US over-the-counter (OTC) market using the symbol CWLDF.
- [By Jeff Reeves]
Next Page
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 Namitha Jagadeesh]
The FTSE 100 Index (UKX) fell 1.31 points, less than 0.1 percent, to 6,679.77 at 10:12 a.m. in London, trimming an earlier decline of as much as 0.6 percent. The gauge has climbed 13 percent this year as central banks maintained stimulus measures to support the global economy. The broader FTSE All-Share Index (ASX) was also little changed today, while Ireland�� ISEQ Index retreated 0.3 percent.
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