Though the Motorola Droid and Apple iPhone have different chassis, their high-octane engines are similar.
The internal similarities begin with performance: both devices are fast. The iPhone 3GS is already distinguished for its speed. And the Droid is quickly garnering similar accolades.
The Motorola Droid has a radically different exterior compared with the iPhone but uses a speedy Cortex-A8 ARM chip like the Apple phone.
(Credit: CNET Reviews)"The Droid makes a big leap in internal performance. Compared with its rather sluggish Android predecessors," CNET Reviews said, citing the speed at which the Droid opens applications and menus and scrolls through lists and switches display screens.
"We're really pumped to see all the industry excitement it's created," said Jeff Dougan, the OMAP 3 product marketing manager at Texas Instruments, which supplies the OMAP 3430 processor that powers the Droid. "This is the first handset that truly realizes the full potential of Android," he said, referring to Google's Android 2.0 operating system that runs on the Droid phone.
The TI processor, like the one in the iPhone, is based on an a new architecture called Cortex-A8 from U.K.-based chip design house ARM, whose wide variety of chips populate most of the world's cell phones. Dougan says most smartphones currently on the market use an older, lower-performance ARM architecture than the Cortex-A8--with the exception of the Palm Pre, which opted for the newer TI chip. The Cortex-A8 provides a "two to three times performance boost" over older architectures, according to Dougan.
Max Baron, an analyst at Microprocessor Report, says the chips in the Droid and the iPhone (see not below) are so alike that differences are more dependent on the operating systems the two chips use and how successfully each phone maker optimizes the OS. "With chips that have near-similar specs, the optimum OS and the look-and-feel of the user interface may make or break the product," Baron said.
The core of TI's OMAP3 processor.
(Credit: Texas Instruments)"The caveat, however, is that even small differences in chips will surface and become important differentiators as soon as the market forces you to increase the screen size or add more pixels per screen, or execute more power-consuming applications," he added.
The raw MHz ratings on the chips are slightly different. The processor in the iPhone 3GS--which is believed to be based on the Samsung S5PC100 processor--runs at 600MHz, according to most accounts. The Motorola Droid's TI chip is rated at 550MHz though theoretically it can be run as fast as 600MHz, according to TI's Dougan.
Both phones also use PowerVR graphics from Imagination Technologies--a company that both Apple and Intel have invested in, testifying to how hot its ultramobile graphics technology is. The PowerVR SGX is renowned for its ability to process several million triangles-per-second--a key indicator of graphics chip performance--blowing away other phones and the previous version of the iPhone.
Other internal specifications are similar between the two phones, including memory capacity (either 16GB or 32GB) and communications chips that offer 3G, Wi-Fi, and Bluetooth connections.
So, internally the Droid is every bit the iPhone's equal. And future versions of TI OMAP 3 chips that may appear in upcoming Droids will be backed by formidable ecosystems, according to Baron. "Investments in application software may lean more toward the TI components," said Baron, given TI's strong support of the entire chip ecosystem, including auxiliary chips and software development tools.
Note:: Apple's and Samsung's reluctance to release information about the processor used in the iPhone 3GS has made it difficult to determine if the chip is based on the Samsung S5PC100, according to the Microprocessor Report's Baron. Many iPhone 3GS reviews and teardowns, however, state explicitly that the iPhone's processor is essentially the Samsung S5PC100 processor.
Texas Instruments and Qualcomm executives talked Wednesday about the opportunities they see for the just-announced Google Chrome operating system.
Prototype Qualcomm Snapdragon processor-based device
(Credit: Qualcomm)The Chrome operating system is "lightweight," a term that Google uses, meaning the OS runs fine on less hardware. Chrome will initially be targeted at Netbooks--essentially ultra-small laptops--that will be available for consumers in the second half of 2010, according to Google.
Both TI and Qualcomm believe the Google OS will provide more opportunity for new-fangled devices to gain wider acceptance. And both believe this is an opportunity for their respective ARM processors--which power many of the world's cell phones--to gain more ground.
Analysts see the makings of a broad realignment in the computer industry. "What Google is betting on with the Chrome OS (is a) shift in computing and consumer behavior," Charles King, president and principal analyst at Pund-IT, wrote in a research note on Wednesday. "If that scenario truly comes to pass, it could disrupt the efforts of virtually every vendor focused on personal computing."
Texas Instruments, which has been working with Google on the Chrome OS, expects big changes in the design of devices, according to Ramesh Iyer, TI's head of worldwide business development for mobile computing.
"Netbooks are really the tip of the iceberg. We need to fast forward into the future and think of things beyond the Netbook thanks to this initiative from Google," Iyer said in a phone interview. TI's OMAP ARM processor powers a number of cell phones and smartphones including the recently-announced Palm Pre.
"We see the future being cloud computing really. You are walking around with a simple tablet, that is probably no thicker than the thickness of your display. It may have a (physical) keyboard, it may have a soft keyboard. ... Read more
Texas Instruments raised its outlook for the second quarter Monday, as analog chips and processors for high-end smartphones like the Palm Pre drive sales.
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A Texas Instruments processor is the brain inside the Palm Pre
(Credit: Palm)In a "scheduled update" to its business outlook for the second quarter of 2009, TI said Monday that it expects revenue of between $2.30 and $2.50 billion, compared with the prior estimate of between $1.95 and $2.40 billion. Earnings per share is now expected to be between $0.14 to $0.22, compared with the previous estimate of between $0.01 and $0.15.
Though analog chips are the biggest driver of sequential growth, TI is also seeing a bump in sales of its application processors that go into smartphones such as the Palm Pre. TI's 600MHz OMAP 3430 processor is the brain inside the Pre. The chipmaker also supplies power management, audio, and USB silicon for the Pre.
"Orders were strong in April and May," said Ron Slaymaker, vice president and head of investor relations at TI, in a conference call on Monday afternoon. "We see strength in smartphones--the high-end segment of the market," he said.
And Sprint Nextel executives said Monday that the launch of the Palm Pre on Saturday hit a new sales record for the company. More good news for TI.
The competition to get silicon into the latest and greatest smartphone and mobile Internet device is severe. TI vies for silicon real estate with Samsung, Qualcomm, and Marvell. And the field is getting increasingly crowded: PC industry heavyweights Intel and Nvidia are focusing their considerable resources on the market. Intel, the largest chipmaker in the world, clearly wants to be a major player in the smartphone market by 2011.
And Apple is in the business, too. Though Apple would like it if the iPhone remained a black box (it doesn't matter what's inside, it's the Apple brand on the outside that matters), it is involved in the design of the processors inside its iPhones, according to analysts. The processor inside the iPhone is supplied by Samsung, but branded as an Apple chip.
The TI chip in the Pre is a superscalar design based on the Cortex-A8 core from U.K.-based ARM. The 3430 features "a dedicated level-2 cache and execution of up to twice as many instructions per clock cycle" over previous chips, according to TI documentation. It also integrates a Powervr SGX 2D/3D graphics accelerator.
Texas Instruments sent out a little reminder on Monday that it won't be a cakewalk into the smartphone market for newcomers Intel and Nvidia.
While Intel announced LG Electronics as its first smartphone customer and Nvidia hawks its initial mobile phone technology platforms to prospective customers, TI continues to upgrade its arsenal of ARM-design-based processors, which have been shipping for years to cell phone customers. (Samsung and Palm--and the latter's newest Palm Pre--are among TI's customers.)
At the Mobile World Congress in Barcelona on Monday, TI announced a new OMAP 4 mobile chip platform that will allow smartphones to do 1080p video record and playback and integrate 20-megapixel cameras. TI claims the OMAP 4 will deliver 10-times-faster Web page loading times, more than 7 times higher computing performance, and 10 times better graphics performance than its current OMAP processors.
The OMAP 4 processor is based on the dual-core ARM Cortex A9 MPCore supporting symmetric multiprocessing (SMP) and capable of speeds of more than 1GHz per core, according to TI. Basic ARM processor designs are licensed by U.K.-based ARM Holdings to companies like Texas Instruments and Qualcomm that tweak the design and then manufacture the chip.
OMAP 4 platform and development tools are expected to sample in the second half of 2009, with production expected by the second half of 2010.
TI also said Monday that it is adding to the OMAP 3 family with silicon based on 45-nanometer processor technology. (Intel is also using 45-nanometer manufacturing technology for its upcoming Moorestown smartphone chip.)
The OMAP36x series will run at speeds up to 1GHz, offer a dedicated graphics hardware accelerator for 3D gaming, and support 720p high-definition video recording and playback and 12-megapixel cameras.
The silicon is scheduled to sample in the third quarter.
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