Integrated Device Technology Inc. (NASDAQ:IDTI) will issue first quarter 2015 financial results on July 28, 2014 after 1:00 p.m. Pacific time. The financial results webcast will begin at 1:30 p.m.
Wall Street anticipates that the semiconductor maker will earn $0.16 per share for the quarter, which is $0.11 more than last year's profit of $0.05 per share. iStock expects Integrated Device to top Wall Street's consensus number, the iEstimate is $0.17.
Revenue, like earnings per share (EPS), is expected to increase, moving forward by 5.9% year-over-year (YoY). The consensus revenue estimate for Q1 is $124.97 million versus last year's $117.98 million.
[Related -U.S. Stocks Jump On Strong Manufacturing Data; Hot Stocks: CHK, SHLD, PFCB, AVP, PBY, IDTI, PLXT]
IDT develops a broad range of low-power, high-performance mixed-signal semiconductor solutions that optimize our customers' applications in key markets. In addition to its market-leading timing products, IDT offers semiconductors targeting communications infrastructure ��both wired and wireless ��high-performance computing and power management.
5 Best Freight Stocks To Own For 2015: Xilinx Inc (XLNX)
Xilinx, Inc. (Xilinx), incorporated on February 5, 1984, designs, develops and markets programmable platforms. These programmable platforms have a number of components, including integrated circuits (ICs) in the form of programmable logic devices (PLDs), including Extensible Processing Platforms (EPPs); software design tools to program the PLDs; targeted reference designs; printed circuit boards, and intellectual property (IP), which consists of Xilinx and various third-party verification and IP cores. In addition to its programmable platforms, Xilinx provides design services, customer training, field engineering and technical support. The Company�� PLDs include field programmable gate arrays (FPGAs), complex programmable logic devices (CPLDs) that its customers program to perform logic functions, and EPPs. Xilinx�� products are offered to electronic equipment manufacturers in end markets, such as wired and wireless communications, industrial, scientific and medical, aerospace and defense, audio, video and broadcast, consumer, automotive and data processing. The Company sells its products globally through independent domestic and foreign distributors and through direct sales to original equipment manufacturers (OEMs) by a network of independent sales representative firms and by a direct sales management organization. In January 2011, the Company acquired AutoESL Design Technologies, Inc. In August 2012, the Company acquired embedded Linux solutions provider PetaLogix.
Product Families
The 7 series devices that comprise the Company�� 28-nanometer (nm) product families are fabricated on a high-K metal gate 28-nm process technology. These devices are based on an architecture, which enables design and IP portability and re-use across all families, as well as provides designers the ability to achieve the appropriate combination of I/O support, performance, feature quantities, packaging and power consumption to address a range of applications. The 7 series devices consist of! three families: Virtex-7 FPGA, Kintex-7 FPGAs and Artix-7 FPGAs. The Zynq-7000 family is the family of Xilinx EPPs. The Virtex-6 FPGA family consists of 13 devices and is the sixth generation in the Virtex series of FPGAs.
Virtex-6 FPGAs are fabricated on a high-performance, 40-nm process technology. There are three Virtex-6 families: Virtex-6 LXT FPGAs, Virtex-6 SXT FPGAs and Virtex-6 HXT FPGAs. The Spartan-6 family is the PLD industry�� 45-nm high-volume FPGA family, consisting of 11 devices in two product families: Spartan-6 LX FPGAs and Spartan-6 LXT FPGAs. The Virtex-5 FPGA family consists of 26 devices in five product families: Virtex-5 LX FPGAs for logic-intensive designs, Virtex-5 LXT FPGAs for high-performance logic with serial connectivity, Virtex-5 SXT FPGAs for high-performance DSP with serial connectivity, Virtex-5 FXT FPGAs for embedded processing with serial connectivity and Virtex-5 TXT FPGAs for high-bandwidth serial connectivity. Prior generation Virtex families include Virtex-4, Virtex-II Pro, Virtex-II, Virtex-E and the original Virtex family. Spartan family FPGAs include 90-nm Spartan-3 FPGAs, the Spartan-3E family and the Spartan-3A family. Prior generation Spartan families include Spartan-IIE, Spartan-II, Spartan XL and the original Spartan family.
Design Platforms and Services
The Company offers three types of programmable platforms. The Base Platform is the delivery vehicle for all of its new silicon offerings used to develop and run customer-specific software applications and hardware designs. The Base Platform consists of FPGA silicon; Integrated Software Environment (ISE) Design Suite design environment; integration support of optional third-party synthesis, simulation, and signal integrity tools; reference designs; development boards and IP. The Domain-Specific Platform targets one of the three primary Xilinx FPGA user profiles: the embedded processing developer; the DSP developer; or the logic/connectivity developer. The Market-S! pecific P! latform enables software or hardware developers to build and run their specific application or solution. Built for specific markets, such as automotive, consumer, aerospace and defense, communications, audio, video and broadcast, industrial, or scientific and medical, the Market-Specific Platform integrates both the Base and Domain-Specific Platforms.
During April 2012, Xilinx introduced the Vivado Design Suite. Vivado supports Xilinx 7 series FPGAs and Zynq EPPs. Xilinx and various third parties offer hundreds of no charge and fee-bearing IP core licenses covering Ethernet, memory controllers Interlaken and PCIe interface, as well as domain-specific IP in the areas of embedded, DSP and connectivity, and market-specific IP cores. The Company also offers development kits, including hardware, design tools, IP and reference designs. Xilinx offers a range of configuration products, including one-time programmable and in-system programmable storage devices to configure Xilinx FPGAs. These programmable read-only memory (PROM) products support all of the Company�� FPGA devices. Xilinx and certain third parties have developed and offer a ecosystem of IP, boards, tools, services and support through the Xilinx alliance program. Xilinx also works with these third parties to promote its programmable platforms through third-party tools, IP, software, boards and design services. Xilinx engineering services provide customers with engineering, ranging from hands-on training to full design creation and implementation.
The Company competes with Altera Corporation, Lattice Semiconductor Corporation and Microsemi Corporation.
Advisors' Opinion:- [By Beth Piskora]
They are listed below:
Altera (ALTR)��ielding 1.7%
Apple (AAPL)��ielding 2.5%
Applied Materials (AMAT)��ielding 2.6%
Cisco (CSCO)��ielding 2.9%
EMC Corp. (EMC)��ielding 1.5%
International Business Machines (IBM)��ielding 2.0%
KLA-Tencor (KLAC)��ielding 3.2%
Microchip Technology (MCHP)��ielding 3.6%
Oracle (ORCL)��ielding 1.5%
Qualcomm (QCOM)��ielding 2.1%
Texas Instruments (TXN)��ielding 2.9%
Xilinx (XLNX)��ielding 2.3%
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Top 10 Semiconductor Stocks To Buy For 2014: Solitron Devices Inc (SODI)
Solitron Devices, Inc., incorporated on March 12, 1987, designs, develops, manufactures and markets solid-state semiconductor components and related devices primarily for the military and aerospace markets. The Company manufactures a variety of bipolar and metal oxide semiconductor (MOS) power transistors, power and controls hybrids, junction and power MOS field effect transistors (Power MOSFETS), field effect transistors and other related products. It's products are custom made pursuant to contracts with customers whose end products are sold to the United States government. The Company�� semiconductor products can be classified as active electronic components. The Company�� active electronic components include bipolar transistors and MOS transistors.
The Company�� semiconductor products are used as components of military, commercial, and aerospace electronic equipment, such as ground and airborne radar systems, power distribution systems, missiles, missile control systems, and spacecraft. Its products have been used on the space shuttle and on the spacecraft sent to the moon, to Jupiter (on Galileo) and, to Mars (on Global Surveyor and Mars Sojourner).
Power Transistors
The Company manufactures a variety of power bipolar transistors for applications requiring currents in the range of 0.1 ampere to 300 ampere or voltages in the range of 30 volts to 1000 volts. It also manufactures power diodes under the same military specification. In addition, it manufactures power N-Channel and P-Channel MOSFET transistors and is expanding that line in accordance with customers��requirements.
Hybrids
The Company manufactures thick film hybrids, which generally contain discrete semiconductor chips, integrated circuits, chip capacitors and thick film or thin film resistors. The hybrids are of the high-power type and are custom manufactured for military and aerospace systems. Some of the Company�� hybrids include high power voltage regulators, p! ower amplifiers, power drivers, boosters and controllers. The Company manufactures both standard and custom hybrids.
Voltage Regulators
Voltage regulators provide the power required to activate electronic components such as the integrated circuits. These circuits are found in all electronic devices from radar and missile systems to smart phones.
Field Effect Transistors
The Company manufactures about 30 different types of junction and MOS field effect transistor chips. They are used to produce over 350 different field effect transistor types. The Company�� field effect transistors conform to standard Joint Electronic Device Engineering Council designated transistors, commonly referred to as standard 2N number types. It manufactures both standard and custom field effect transistors.
The Competes with IXYS Corporation, Motorola Inc., International Rectifier, Microsemi Corporation, M.S. Kennedy Corporation, Natel Engineering Company and Sensitron Semiconductor.
Advisors' Opinion:- [By Geoff Gannon]
Solitron (SODI) sells at 74% of NCAV, has decent z- and f-scores, a FCF margin of 5.3% and an ROA of 12%.
Micropac (MPAD) sells at 83% 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%. - [By Geoff Gannon] strong>OPT-Sciences (OPST)
Micropac
Micropac is 76% owned by Heinz-Werner Hempel. He�� a German businessman. You can see the German company he founded here. He�� had control of Micropac for a long-time. I don�� have an exact number in front of me. But I would guess it�� been something like 25 years.
ADDvantage
ADDvantage Technologies is controlled by the Chymiak brothers. See the company�� April 4 press release explaining their decision to turn over the CEO position to an outsider. Regardless, the Chymiaks still control 47% of the company. Ken Chymiak is now chairman. And David Chymiak is still a director and now the company�� chief technology officer. Clearly, it�� still their company.
By the way, the name ADDvantage Technologies has nothing to do with the Chymiaks. Today�� AEY really traces its roots to a private company called Tulsat. The Chymiak brothers acquired that company about 27 years ago. So, effectively, when you buy shares of AEY you are buying into a 27-year-old family-controlled company.
That�� pretty typical in the world of net-nets.
Solitron
Solitron Devices is 29% owned by Shevach Saraf. He has been the CEO for 20 years. The post-bankruptcy Solitron has never known another CEO. Before the bankruptcy, Solitron was a much bigger, much different company. So even though we are not talking about the founder here ��and even though 70% of the company�� shares are not held by the CEO ��we��e still talking about a company where one person has a lot of control. Solitron only has three directors. Saraf is the chairman, CEO, president, CFO and treasurer. Neither of the other two directors joined the board within the last 15 years. So, we aren�� talking about a lot of tumult at the top.
In fact, profitable net-nets seem to be especially common candidates for abandoning the responsibilities of a public company without actually getting taken private.
OPT-Sciences
This
Top 10 Semiconductor Stocks To Buy For 2014: Ambarella Inc (AMBA)
Ambarella, Inc., incorporated on January 15, 2004, is a developer of semiconductor processing solutions for video that enable high-definition (HD), video capture, sharing and display. The Company combine its processor design capabilities with its video and image processing, algorithms and software to provide a technology platform. It sells solutions into the camera and infrastructure markets, with approximately 27 million system-on-a-chips (SoCs) shipped since our inception. In the camera market, its solutions enable the creation of video content for wearable sports cameras, automotive aftermarket cameras, Internet Protocol (IP), security cameras, digital still cameras (DSCs), telepresence cameras, camcorders and pocket video cameras. In the infrastructure market, its solutions manage IP video traffic, broadcast encoding and IP video delivery applications. In 2012, the Company released its Wireless Camera Developers Kit. In 2012, it also launched S2 SoC, which enables Ultra High-Definition IP security cameras.
The Company sells its solutions to original design manufacturers (ODMs), and original equipment manufacturers (OEMs), globally. In the camera market, its video processing solutions are designed into products from OEMs, including Robert Bosch GmbH and affiliated entities, Samsung Electronics Co., Ltd. and Woodman Labs, Inc., doing business as (d/b/a) GoPro, or GoPro, who source its solutions from ODMs, including Ability Enterprise Co., Ltd., Asia Optical Co. Inc., Chicony Electronics Co., Ltd., DXG Technology Corp., Hon Hai Precision Industry Co., Ltd. and Sky Light Digital Ltd. In the infrastructure market, its solutions are designed into products from OEMs, including Harmonic Inc., Motorola Mobility, Inc. (owned by Google, Inc.) and Telefonaktiebolaget LM Ericsson, who source its solutions from ODMs, such as Plexus Corp.
AmbaClear
The Company�� image signal processing architecture, known as AmbaClear, incorporates advanced algorithms to convert raw senso! r data to high-resolution still and high-definition video images concurrently. Image processing algorithms include sensor, lens and color correction, demosaicing, which is a process used to reconstruct a full color image from incomplete color samples, noise filtering, detail enhancement and image format conversion.
AmbaCast
The Company�� HD video processing architecture, known as AmbaCast, incorporates advanced algorithms for motion estimation, motion-compensated temporal filtering, mode decision and rate control. It supports all three compression profilesbaseline, main and highas specified in the H.264 standard. Its solutions for the broadcast infrastructure market allow OEMs to offer both the H.264 and MPEG-2 encoding formats.
Design Methodology
The Company test and verify its algorithms on its architectural model prior to implementing algorithms in hardware. Its advanced verification methodology validates its approach through simultaneous modeling of architecture, algorithms and the hardware itself.
SoC Solution
The Company�� SoC designs integrate HD video processing, image processing, applications processing and system functions onto a single chip, delivering video and image quality with features, including advanced wireless connectivity. In addition, its SoCs integrate mixed signal (analog/digital) functionality and high speed interfaces required for interfacing to advanced high-speed CMOS sensors and industry standard interfaces, such as USB 2.0 and HDMI 1.4. Its A7L SoC, which it introduced in September 2011, is fabricated in edge 32 nanometer (nm) process technology and integrates AmbaClear and AmbaCast technology.
Software Development Kit for Connectivity
The Company�� video streaming technology enables the camera�� image to be previewed on a smartphone. To enable this functionality, end customers deploy its Wireless Camera Developer�� Kit, or the Kit, which enables the design of ca! meras tha! t combine still photography and Full HD video with wireless video streaming to smartphones. The Kit is available for its A7L SoC product family, providing full 1080p60 HD video with photography and low power consumption.
The Company competes with CSR Plc, Fujitsu Limited, HiSilicon Technologies Co., Ltd., Texas Instruments Incorporated, Canon Inc., Panasonic Corporation, Sony Corporation, Novatek Microelectronics Corp., Sunplus Technology Co. Ltd., Intel Corporation, Magnum Semiconductor, Inc., Texas Instruments Incorporated, Broadcom Corporation, NVIDIA Corporation, Qualcomm Incorporated and Samsung.
Advisors' Opinion:- [By Rich Smith]
Ambarella just crashed
Following a Street.com report detailing insider selling at Ambarella (NASDAQ: AMBA ) earlier this week, and a downgrade of the stock to hold by Needham & Co. earlier this morning, shares of the high-def "system-on-a-chip" semiconductor maker are plunging, down nearly 8% at last report. Should investors be worried?
Top 10 Semiconductor Stocks 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 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 10 Semiconductor Stocks To Buy For 2014: Taiwan Semiconductor Manufacturing Co Ltd (TSM)
Taiwan Semiconductor Manufacturing Co., Ltd. is a Taiwan-based company principally engaged in the research, development, manufacture and distribution of integrated circuit (IC) related products. The Company operates its businesses through wafer manufacture, mask production, wafer testing and packaging components. The Company also involves in the provision of production management, customer services and design services. Its products and services are applied in the manufacture of personal computers and peripheral products, information related products, wire and wireless communication systems, automobile and industrial equipment, as well as consumer electronic products, such as digital disk players, digital televisions (TVs), game consoles, digital cameras, among others. Its customers include Altera, AMD, Broadcom, Marvell, NVIDIA, Qualcomm, Analog Devices, Freescale, NXP and Texas Instruments, among others. In July 2010, Taiwan Semiconductor Manufacturing Co. acquired mechanical and engineering equipment from ASML HONG KONG LTD. In September 2010, the Company acquired a set of equipments from ASML HONG KONG LTD. In December 2010, the Company acquired a set of equipment from TOKYO ELECTRON LTD., KLA-TENCOR CORP. and NOVELLUS SYSTEMS INTERNATIONAL,B.V. In January 2011, the Company announced that it had acquired a set of equipment from KLA-TENCOR CORP., a set of equipment and facility, and another set of equipment from VARIAN SEMI. EQUIP. ASSOCIATES GmbH. In March 2011, the Company acquired a set of equipments from Rudolph Technologies, Inc.In March 2011, the Company acquired a set of equipments from Rudolph Technologies, Inc. In May 2011, it acquired a set of equipments form APPLIED MATERIALS SOUTH EAST ASIA PACIFIC LTD., Hamatech APE Gmbh and CO. KG, TOKYO ELECTRON LTD., DAINIPPON SCREEN MFG. CO., LTD., and VARIAN SEMI. EQUIP. ASSOCIATES GMBH.
TSMC's customers include semiconductor companies, ranging from fabless semiconductor and systems companies, such as Advanced Micro Devices, In! c., Altera Corporation, Broadcom Corporation, Marvell Semiconductor Inc., MediaTek Inc., nVidia Corporation and Qualcomm Incorporated, to integrated device manufacturers, such as LSI Corporation, STMicroelectronics and Texas Instruments Inc. Fabless semiconductor and system companies accounted for approximately 80%, and integrated device manufacturers accounted for approximately 20% of its net sales as of December 31, 2009.
The Company manufactures semiconductors using CMOS and BiCMOS processes. The BiCMOS process combines the speed of the bipolar circuitry and the power consumption and density of the CMOS circuitry. It uses the CMOS process to manufacture logic semiconductors, memory semiconductors, including static random access memory (SRAM), flash memory, mixed-signal/ radio frequency (RF) semiconductors, which combine analog and digital circuitry in a single semiconductor, micro-electro-mechanical-system (MEMS), which combines micrometer featured mechanical parts, analog and digital circuitry in a single semiconductor, and embedded memory semiconductors, which combine logic and memory in a single semiconductor. The BiCMOS process is used to make high-end mixed-signal and other types of semiconductors.
Advisors' Opinion:- [By Charles Sizemore]
For example, the iShares MSCI Emerging Markets ETF (EEM) is comprised of companies that, while domiciled in the emerging world, get a large chunk of their revenues from exporting to the West. Think Samsung (SSNLF) and Taiwan Semiconductor (TSM). (Whether South Korea and Taiwan are ��merging markets��or ��eveloped markets��is another debate for another day, but both countries are well represented in EEM.)
Top 10 Semiconductor Stocks 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 10 Semiconductor Stocks To Buy For 2014: 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.
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