Tuesday, September 21, 2004

Confusing DRAM nomenclatures

Just figured out the different term for different kind of DRAM as listed in the following table:



















StandardSpeed/ClockName
DDR266 MHzPC2100
DDR333 MHzPC2700
DDR2400 MHzPC3200
DDR2533 MHzPC4200
DDR2675 MHzPC5400

Saturday, September 18, 2004

What is CORBA?

I just get started to learn more about this architecture. CORBA (Common Object Request Broker Architecture) is a new paradigm of interfacing clients to server(s). I just google it and found out there are many different packages for this, from commercieal packages such as Visibroker to open source ones.

Check this http://orbit-resource.sourceforge.net/ as one of them. It has many links related to ORB.
What is the Fastest Gaming PC in this year?

According to MaximumPC magazine, Alienware's Aurora ALX is the winner, followed closely by Falcon's Mach V. The Aurora is equipped with 2.6 GHz Athlon 64 FX-53 processor, ASUS A8V mobo, VIA K8T800 Pro chipset, 1 GB DDR400 (PC3200) RAM, GeForce 6800 Ultra VGA card, RAID0 HD, SB Audigy 2ZS audio card, 1 CD-RW, 1 DVD 2-layer writer. It is able to run a game like DOOM3 in 1280x1024 pixel resolution with 4AA enabled at 83.4 fps!

Wait a few more years as we see there are new technologies coming to these home PC, such as PCI Express (some mobos and video cards have already used this slot), new ATX form factor, dual or even multicore processors, Microsoft Longhorn OS. Not to mention GigE and Wi-Fi interfaces that some mobos have already used on their product lines.

Saturday, September 11, 2004

Build or just buy a prebuilt PC?

Just checked some computer makers' web sites, I've found out that pre-built PCs are cheaper to buy than buy the components separately and assembly them. For instance, a gaming PC 710G from Gateway.com is priced "only" $2000 equipped with Pentium4 3.2 GHz 800 MHz FB, 1 GB DDR-RAM, 250 GB SATA HD, 19" monitor, 256 MB NVidia GForce 5950G Ultra, SoundBlaster Audigy2, etc.

Friday, September 3, 2004










The chipset's designer did not comment, however, on the reasons for the PSP's delay. Sony has already said that the PSP will not ship in the U.S. until early 2005, and reports have surfaced that software makers don't believe the handheld will be released here until June 2005. Sony will ship the PSP in Japan later this year.



Not only will the PSP signal a new round in the console wars by challenging the established Nintendo Game Boy and new Nintendo DS, but the player will also begin the introduction of 3D-dedicated game into the handheld space.



The PSP will be based around four key blocks: the main CPU core, the media engine, the dedicated graphics processor, and the "Virtual Mobile engine," a reconfigurable assistant chip that will also be used in Sony's Walkman portable music player to conserve battery life. At press time, it wasn't clear whether each block would be integrated or broken out into a separate chip.



Some of the basic capabilities of the PSP player have already been disclosed. The game player will include a 4.3-inch widescreen TFT LCD, will contain a lithium-ion battery, and process AAC and MP3 music and AVC/@MP for pictures and movies. Games and other content will be stored on a 1.8-Gbyte UMD optical disc. The PSP is said to measure 70mm x 74mm x 23mm, and weigh 260 grams.




Sony PSP Game Processing Unit

In a presentation at the Hot Chips conference here Tuesday, designer Masanobu Okabe described further details of the PSP chipset, which the company concealed with the non-specific title: "A 90-nm embedded DRAM single-chip LSI with a 3D graphics H.264 codec engine and a reconfigurable processor".



Sony's PSP Embedded DRAM Specs
click on image for full view




Sony Computer Entertainment executives said in May that the PSP would be powered by a MIPS R4000 embedded CPU. Okabe said Tuesday that the CPU will run at speeds up to 333-MHz, with a bus that can run at speeds up to 166-MHz, depending upon the application load. In low-load situations, Okabe said, the chip will power down unused blocks. The entire chip will total 6 million gates and an undisclosed amount of transistors. Sony will fabricate the chip in a 7-layer, copper-enhanced 90-nanometer process.



Sony PSP System Chip Block Diagram
click on image for full view



To save power, the chip core's voltage will range between 0.8 and 1.2 volts. Okabe declined to disclose the average power consumption of the chip or the 3D engine, claiming that the power will vary depending on the application.



The host CPU block will also contain a security sub-block designed to protect data and help prevent hacking the PSP, its games, or the stored data.



Okabe's presentation of the I/O also contained some unexpected surprises. Early disclosures of the PSP indicated that the player would be capable of communicating via 802.11b WiFi. The only I/O functions Okabe described were USB 2.0 and Memory Stick, Sony's small-form-factor flash memory format.



Sony PSP Chip Summary
click on image for full view


The PSP's graphics engine will feature a 512-bit interface, Okabe said, pushing 664 million pixels or 35 million polygons per second. Freed from the need to conform to any other graphics API besides its own, Sony decided to support some basic graphics primitives as well as directional lighting, clipping, environment projection and texture mapping, fogging, alpha blending, depth and stencil tests, and dithering, all using either 16- or 32-bit color. The 166-MHz graphics core will include 2-Mbytes of embedded graphics memory.


Sony's PSP Embedded DRAM Specs
click on image for full view



Sony apparently will support a graphics model based on surfaces, rather than polygons. Okabe displayed an illustration of a cartoon character that looked more realistic than a polygon-based model, which he said contained the same amount of data. The graphics block will also be capable of vertex blending, a morphing technology that can interpolate changes made between objects.


Sony PSP Graphics Chip Specs
click on image for full view



"Small data size is advantageous to mobile data software," Okabe said.



Unfortunately, the purpose of the VME still remains a bit of a mystery. The reconfigurable logic will run at 166-MHz, and apparently reconfigure its internal 24-bit datapath in a single clock cycle, into configurations suited for H.264, a video algorithm based on MPEG-4, as well as game sounds and sound effects. Since the VME must be reconfigured for each operation, attendees here said they assumed that the PSP will not be able to combine video with external sound effects. However, Okabe said that the decoder would be the fastest found in any consumer-electronics device at the time of the PSP's launch.



Sony PSP Media Processing Unit
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Sony PSP Graphics Module Block Diagram
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Sony PSP Reconfigurable Virtual Mobile Engine
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Sony's VME Dissected
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