Top 5 Semiconductor Companies To Buy For 2014

High-frequency trading works for a few large firms. They have access to special computer systems and high-speed data connections that allow them to enter thousands of orders a minute.

The fastest firms can enter and exit trades in less than a second. Individuals cannot possibly compete with these firms and should focus on a longer time frame for their investments.

 

Hedge funds often hold their positions for a few days at a time. These firms have access to advanced trading algorithms and teams of analysts that evaluate information most individuals don't have access to. Information on industry trends -- like the impact of the Architecture Billings Index on the housing sector, for example, or the book-to-bill ratio for semiconductors -- can be valuable, but it's expensive and requires specialized knowledge to interpret.

Best Net Payout Yield Stocks To Buy Right Now: 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 Alan Oscroft]

  ARM
  Wednesday is ex-dividend day for�ARM Holdings� (LSE: ARM  ) (NASDAQ: ARMH  ) , too. The chip designer is not exactly known as a cash cow when it comes to dividends, but it did announce a 2.83 pence-per-share final dividend on Feb. 5 for an annual total of 4.5 pence. Even if that does only provide a yield of half a percent on today's share price of 879 pence, it is up 29% on the previous year.

Top 5 Semiconductor Companies To Buy For 2014: Advanced Photonix Inc (API)

Advanced Photonix, Inc. (API), incorporated in June 22, 1988, is engaged in the development and manufacture of optoelectronic devices and value-added sub-systems and systems. The Company serves a variety of global original equipment manufacturers (OEMs) in a variety of industries. API supports its customers from the initial concept and design phase of the product, through testing to full-scale production. API has two manufacturing facilities located in Camarillo, California and Ann Arbor, Michigan. API is a supplier of optoelectronic semiconductors packaged into high-speed optical receivers, custom optoelectronic subsystems and Terahertz instrumentation, serving a variety of global OEM markets. API supports the customer from the initial concept and design of the semiconductor, hybridization of support electronics, packaging and signal conditioning or processing from prototype through full-scale production and validation testing. The target markets served by it are industrial sensing/NDT, military/aerospace, telecom, medical and homeland security. On March 1, 2013, it acquired certain assets of Silonex, Inc.

The Company�� high-speed optical receivers include avalanche photodiode (APD) technology and positive-intrinsic-negative (PIN) photodiode technology based upon III-V materials, including InP, InAlAs, and GaAs. Its optoelectronic subsystems are based on its silicon large area avalanche photodiode (LAAPD), PIN photodiode, FILTRODE detectors and light emitting diode (LED) assemblies. API�� Terahertz sensor product line is targeted at the industrial homeland security and military markets. Using its fiber coupled technology and high speed Terahertz generation and detection sensors, the Company is engaged in transferring Terahertz technology from the laboratory to the factory floor for use in non-destructive testing and real time quality control.

The Company competes with First Sensor, Illinois Tool Works, JDS Uniphase, Neophotonix, U2T and Nippon Electric.

Advisors' Opinion:

• [By Monica Gerson]

  Advanced Photonix (NYSE: API) is expected to post a Q4 loss at $0.01 per share on revenue of $7.04 million.

  Sport Chalet (NASDAQ: SPCHB) is projected to post its quarterly earnings.

• [By Patricio Kehoe]

  In 2010, the company acquired privately held Nimsoft, a provider of IT performance monitoring solutions for $350 million in cash. In Sep 2010, CA signed a definitive agreement to acquire Hyperformix Inc. Recently; it acquired Layer 7 Technologies, a leading provider of Application Programming Interface (API) security and management. Furthermore, the acquisition of Arcot Systems Inc., a privately held company that provides authentication and fraud prevention software, in a move to boost its security offerings. These acquisitions have helped the firm to strengthen its cloud computing infrastructure and would also help to generate better profitability from the existing technology assets.

• [By Bryan Murphy]

  When most investors think of optical sensor makers, they tend to think of larger names like Honeywell International Inc.� (NYSE:HON) or Vishay Intertechnology (NYSE:VSH). And well they should. VSH is a $2 billion company, and HON is a $71.5 billion organization. The fact is, however, there are a few small cap stocks in the optical sensor space that are worth a look, and one of them is worth a very close look right now for a very clear reason... Advanced Photonix, Inc. (NYSEMKT:API).

Top 5 Semiconductor Companies To Buy For 2014: Tokyo Electron Ltd (TOELY.PK)

Tokyo Electron Limited is a company mainly engaged in the manufacture and sale of electronic products for industrial uses. The Semiconductor Manufacturing Equipment, Flat-panel Display (FPD) and Photovoltaic Cell (PV) Manufacturing Equipment segment provides coaters and developers for wafer processing, plasma etching equipment, thermal processing systems, single wafer deposition systems, cleaning systems, coaters and developers for FPD manufacturing, ashing devices and plasma chemical vapor deposition (CVD) devices. The Electronic Component and Information Communication Equipment segment designs, develops, purchases and sells semiconductor products such as integrated circuits (ICs), computer and network equipment and software. The Others segment involves in logistics, facility management and insurance businesses. On April 1, 2013, it merged with two subsidiaries. In January 2014, the Company established TEL-Applied Holdings B.V. and a Japan-based company. Advisors' Opinion:

• [By Stephen Simpson, CFA]

  Ultratech isn't the only game in town, though, and there are multiple technologies and process steps that are going to play significant roles in the production of FinFETs and 3D circuits. With that, I would take a look at Mattson Technologies (MTSN), as this company has already accomplished the not-so-easy task of gaining meaningful share in the dry strip, rapid thermal processing (RTP), and etch markets despite competing with giants like Lam Research (LRCX), Applied Materials (AMAT), and Tokyo Electron (TOELY.PK).

Top 5 Semiconductor Companies To Buy For 2014: Advantest Corp (ATE)

Advantest Corporation, incorporated in December 1954, is a part of Advantest group. The Company operates in three segments: semiconductor and component test system segment; mechatronics system segment, focusing on peripheral devices including test handlers and device interfaces, and services, support and others segment. The semiconductor and component test system segment provides customers with test system products for the semiconductor industry and the electronic component industry. The mechatronics system segment focuses on peripheral devices to the semiconductor and component test systems. The services, support and others segment consists of comprehensive customer solutions provided in connection with the semiconductor and component test system and mechatronics system segments, support services and an equipment lease business.

Semiconductor and Component Test Systems Segment

Semiconductor and component test systems are used during the semiconductor and electronic component manufacturing process to confirm that a semiconductor functions properly. Semiconductor and component test systems consist of test systems for memory semiconductors and test systems for non memory semiconductors. Advantest�� test systems for memory semiconductors are test systems designed to test high-speed/high performance dynamic random access memory (DRAM) semiconductors used in equipment such as personal computers and servers, as well as flash memory semiconductors used in digital consumer products.

Test systems for memory semiconductors consist of a mainframe and one or more test heads. During testing, a device interface is attached to the test head. During the front-end testing process, wafers are loaded by a prober and are connected to the test system for memory semiconductors through the device interface. Electric signals between the die and the test systems for memory semiconductors are transmitted through probe pins located in the device interface and tested. After front-end te! sting is completed, the wafer is diced into separate dies and properly functioning dies are packaged. During back-end testing, test handlers are used to load these packaged devices onto the test heads, and electric signals are transmitted between the devices and the test heads via the device interface and tested. The test results are analyzed by the test systems for memory semiconductors��hardware circuits and software programs. Customized software programs for each semiconductor are required to analyze the semiconductor tests and test data.

Advantest�� main product lines of test systems for memory semiconductors are the T5500 series, the T5300 series and the T5700 series. The T5593 is a test system targeted at the market for high speed memory semiconductors, such as DDR2- Synchronous Dynamic Random Access Memory (SDRAM) and Synchronous Graphics Random Access Memory (SGRAM). The T5383 is a multi-functional test system for memory semiconductors that reduces testing costs for semiconductor manufacturers. Advantest�� main line of test systems for non memory semiconductors relates to test systems for SoC semiconductors, test systems for liquid crystal display (LCD) driver integrated circuits and test systems for semiconductors used in car electronics. The T6577 test systems for SoC semiconductors in the T6500 series were primarily developed to test micro controller unit (MCU) and SoC semiconductors that control digital consumer products at the production lines. The T6300 series are test systems for LCD driver integrated circuits used with high-definition LCD displays. The T7721, T7722 and T7723 are test systems for non memory semiconductors for mixed signal integrated circuits. The T8571A is a test system for non memory semiconductors that is primarily used to evaluate and analyze CCDs which are image sensors.

Mechatronics System Segment

The Main products in the Mechatronics System Segment are test handlers which handle semiconductor devices and automate the te! sting, an! d device interfaces which are the interfaces with devices being tested. Test handlers are used with semiconductor and component test systems to handle, condition temperature, contact and sort semiconductors and other electronic components during the back-end testing of the semiconductor manufacturing process. Advantest�� test handlers are sold primarily in conjunction with the sale of its semiconductor and component test systems. The M6242 test handler for test systems for memory semiconductors, including DDR-3SDRAM, can handle up to 512 semiconductors at a time. Advantest�� test handlers for non memory semiconductors, including SoC semiconductors, are the M4841, the M4741A and the M4742A, among others.

Advantest develops and manufactures device interfaces for semiconductor and component test systems and supplies device interfaces, such as high performance and high density connectors, socket boards and sockets. For test systems for memory semiconductors, Advantest provides motherboards capable of handling a maximum of 512 semiconductors at a time. For test systems for non memory semiconductors, Advantest provides motherboards that are compatible with a maximum of 3,072 signals. Advantest also provides motherboards designed for use in front-end testing. Advantest provides custom manufacturing of socket boards and performance boards for each device under test in accordance with customers��specifications.

Advantest provides sockets for test systems for memory semiconductors. Advantest provides low-inductance (0.4nH) sockets and fine pitch (0.4mm) sockets for semiconductors that are becoming more high-speed and more compact in size. Advantest provides carrying and contacting mechanism components compatible with each device under test for test handlers for memory semiconductors and test handlers for non memory semiconductors.

Services, Support and Others Segment

In the services, support and others segment, Advantest has focused on maintenance serv! ices, suc! h as installation and repair of Advantest�� products. It also focused on lease and rental services of its products as a part of Advantest�� effort to provide customers with comprehensive solutions.

The Company competes with Teradyne, Inc., Verigy Ltd., LTX-Credence Corporation, Yokogawa Electronic Corporation, FROM30 CO., LTD., EXICON Ltd., UniTest Inc., Delta Design, Inc., Seiko Epson Corporation, Mirae Corporation, TechWing, Inc., TSE Co., Ltd. and Secron Co., Ltd.

Advisors' Opinion:

• [By Dan Carroll]

  Nissan's done better this year than electronics maker Advantest (NYSE: ATE  ) , but this stock absolutely blew up over the past week. Advantest's shares shot higher by more than 9%, wiping out pessimism over the company's weak earnings released a few weeks ago. Advantest's net loss and operating profit both fell below its guidance, and despite this week's investor optimism, the future's murky for this company. Financial site TheStreet downgraded the stock last week, citing Advantest's falling earnings, among other issues.