Analyze the Trends of the Mobile Handset Embedded Memory Industry.DUBLIN, Ireland -- Research and Markets (http://www.researchandmarkets.com/reports/c44992) has announced the addition of Mobile Handset Embedded Memory Development Report, 2005-2006 to their offering After precisely describing handset embedded memories, this report analyses the structure and trends of this market. Then it gives full details about handset embedded memory manufacturers. With diversified functions and augmented performance of mobile phones, the ratio of the cost of handseteIUs memory is increasingly rising, reaching the highest in some high-end phones and smart phones. Thus, it is necessary to study handset memory elaborately. The average capacity of handset memory reached 180MB in 4Q, 2004. Then, the fast growth is maintained and the figure will be doubled to 415MB by Q2, 2006. In a handset, three areas require embedded memories. Firstly, RAM is needed for the temporary data storage of MCU (1) (MicroController Unit) A computer on a single chip. See microcontroller. (2) (Multipoint Control Unit) A device that is used to moderate a videoconference of three or more end points (users at computers or groups of users and DSP (1) (Digital Signal Processor) A special-purpose CPU used for digital signal processing applications (see definition #2 below). It provides ultra-fast instruction sequences, such as shift and add, and multiply and add, which are commonly used in math-intensive . Secondly, NOR flash memory is used for storing system code of handset software. And the third one comes to NAND flash See flash memory. memory which is used for the storage of extended data. In general, RAM is a kind of volatile storage volatile storage - non-volatile storage while NOR and NAND (Not AND) A Boolean logic operation that is true if any single input is false. Two-input NAND gates are often used as the sole logic element on gate array chips, because all Boolean operations can be created from NAND gates. See flash memory. are both characterized by non-volatile storage (storage) non-volatile storage - (NVS, persistent storage, memory) A term describing a storage device whose contents are preserved when its power is off. Storage using magnetic media (e.g. . Presently, RAM memories mostly adopt the form of PSRAM PSRAM Pseudo-Static Random Access Memory PSRAM Pseudo Static Ram whose capacity is around 32MB-64MB. PSRAM can be divided into three types. Initially, CellularRAM is strongly supported by those companies: Hynix, Winbond, NanoAmp Solutions, Renesas, Micron, Infineon and Cypress. In the second place, COSMORAM is actively supported by Toshiba, NEC (NEC Corporation, Tokyo, www.nec.com, www.necus.com) An electronics conglomerate known in the U.S. for its monitors. In Japan, it had the lion's share of the PC market until the late 1990s (see PC 98). NEC was founded in Tokyo in 1899 as Nippon Electric Company, Ltd. and Fujitsu. Thirdly, Samsung uses UtRAM. Because of its structure and features, the capacity of PSRAM can hardly exceed 256MB in a PCB PCB: see polychlorinated biphenyl. PCB in full polychlorinated biphenyl Any of a class of highly stable organic compounds prepared by the reaction of chlorine with biphenyl, a two-ring compound. of 108 square millimeters. And RAM with more than 256MB has to be supported by SDRAM (Synchronous DRAM) A type of dynamic RAM (DRAM) memory chip that has been widely used since the late 1990s. SDRAM chips eliminated wait states by dividing the chip into two cell blocks and interleaving data between them. . Many smart phones have already adopted the RAM with 512MB. In the future, PSRAM will be gradually declining while SDRAM will gain widespread popularity. Key manufacturers such as Cypress, NEC, Toshiba and Mitsubishi which were formerly involved in handset-used PSRAM and SRAM See static RAM. SRAM - static random-access memory cannot provide or manufacture SDRAM. Consequently, their competitiveness is greatly weakened. In comparison, manufacturers such as Hynix, Elpida, Infineon and Micron, which previously took up with DRAM production, began to embark on SDRAM production. Similar to RAM, NOR memory lacks of high density in spite of excellent code execution performance. Compared with NAND, NOR's low density hampers its development. NOR with 128MB-256MB or the maximum 512MB can be provided for low-end phones and medium-end phones. Once NOR's capacity exceeds 512MB, taking smart phones with outstanding performance for instance, manufacturers prefer to adopt NAND because NOR has a much higher cost and a relatively big-sized body. However, NAND has many defects such as the system being unable to start up directly. Concerning stability, there are hidden troubles such as bit-flipping, bad blocks and limited life in NAND. In addition, NAND adopts a non-standard interface and needs software management, which increases the cost of the system. Although this problem can be addressed through some structural methods, some technologies are required for the settlement of the above hidden troubles. M-SYSTEM helps NAND a lot to replace NOR. With the addition of software and hardware design (DiskOnChip) of M-SYSTEM, NAND flash memory can be equally used as NOR. At present, M-SYSTEM is mainly applied in smart phones or mobile phones with U-disk function. The relatively high price of M-SYSTEM hampers its development. It will take three or four years for NAND to replace NOR. Non-smart top-grade 2.5G handsets adopts NOR ranging from 256MB to 320MB. Again, NOR capacity of general 3G mobile phones is around 256MB. There will be one or two years for NOR flash memory to exceed 512MB. In reality, 2.5G handsets will be the mainstream in the next three or four years, especially because domestic handset manufacturers pay much attention cost savings. NOReIUs capacity is currently led by 64-128MB. NOR flash memory suppliers such as Sharp, SST SST: see airplane. and Spansion lack of NAND technology while other counterparts including Intel, STMicroelectronics, Renesas, Toshiba and Samsung are well experienced in NAND technology. Sharp and SST have decided not to set foot in the field of NOR. Only Spansion persists in developing ORNAND. The utilization efficiency of MCP (1) See Microsoft certification. (2) (MultiChip Package) A chip package that contains two or more chips. It is essentially a multichip module (MCM) that uses a laminated, printed-circuit-board-like substrate (MCM-L) rather than ceramic (MCM-C). flash memory is low and handset users can increase the capacity of NAND flash memory from 128MB to at least 1GB. In contrast, the utilization efficiency of micro hard disks can reach 100%. At present, prices of 4GB flash memory and 8GB micro hard disks are about US$80 and US$70 respectively. If 4GB MCP adopted, users can actually utilize about 1GB. So, the demand of 2GB-above storage is better met by micro hard disks. No wonder that Samsung consecutively introduced handsets with 3GB, 4GB and 8GB micro hard disks. There will be at least three years before the average cost of handset memory equals to that of micro hard disk. Some manufacturers also adopt independent flash memory chip to guarantee the utilization efficiency. But the current cost is comparatively high. Micro hard disks will be advantageous in the 4GB-above market in the next three years. Topics Covered 1 Overview of handset embedded memory 2 Handset embedded memory market in China 3 Study on famous manufacturers of handset embedded memory Selected Charts Companies Mentioned - Samsung eI Intel eI Spansion eI STMicroelectronics eI Micron eI Toshiba eI Sharp eI Elpida eI Infineon eI Renesas eI Hynix eI NEC - Cypress Semiconductor Cypress Semiconductor is a semiconductor design and manufacturing company. It began operations in 1982 and listed publicly in 1986. Two years later, the company shifted over to the New York Stock Exchange under the symbol, (NYSE: CY). eI SST eI Winbound - Powerchip Semiconductor - ProMOS Technologies eI Macronix - M-System - Elite Semiconductor - Etron Technology For more information visit http://www.researchandmarkets.com/reports/c44992 |
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