Friday, September 11, 2009

MOTOR YAMAHA TERBARU 2009

The Competition between two manufactur Honda  Yamaha is up in this semester . Each was issued will launch new product.Yamaha recently to launch a new sports bike. Shape's muscular, with a 150 cc.
Maybe  price under Vixion. Millions of the range is 17-18.




Reportedly been going out Lebaran. Kalo viewed from prospects quite bright. Because many of the idolized Motorsports mammpu cuman not buy it.
Because relatively expensive. Probably the cheapest right now is Pulsar, Suzuki Thunder 125, Megapro. But with the emergence of the latest Yamaha products of this output is a motor sports competition in the more exciting.
Since offering a slightly different design to other Motorsports but affordable prices.
Moreover, this motor bearing factory output tuning fork is believed part of Indonesian society.
Maybe for yamaha fanatic, but can not buy this bike Vixion could be an alternative

Skutik Yamaha T-Max Specification

this Skutik Yamaha T-Max Called T-Max, which comes with elegant design, but not until the sporti elements of a high output Yamaha scooter is great.


Skutik Yamaha T-Max
Photographers - Bagja Pratama
Yamaha has not only scooter Yamaha Mio imut such a fenomenal motorcycle market in the country, but also gambot a scooter even has engine capacity of nearly 4-fold from Mio.
http://oto.detik.com

INDIANAPOLIS MOTOGP QUALIFYING TIMES

Third in the championship Casey Stoner has withdrawn until Estoril on October 4 to try and return to full fitness.


Stoner’s place at Ducati Marlboro has been taken by Mika Kallio, whose Pramac ride has been handed to Aleix Espargaro for Indianapolis and Misano. 20-year-old Espargaro is making his MotoGP debut this weekend.

1. Dani Pedrosa SPA Repsol Honda Team 1min 39.730 sec
2. Jorge Lorenzo SPA Fiat Yamaha Team 1min 40.236 sec
3. Valentino Rossi ITA Fiat Yamaha Team 1min 40.609 sec
4. Alex de Angelis RSM San Carlo Honda Gresini 1min 40.620 sec
5. Colin Edwards USA Monster Yamaha Tech 3 1min 40.961 sec
6. Nicky Hayden USA Ducati Marlboro Team 1min 41.067 sec
7. Toni Elias SPA San Carlo Honda Gresini 1min 41.283 sec
8. Andrea Dovizioso ITA Repsol Honda Team 1min 41.309 sec
9. Marco Melandri ITA Hayate Racing Team 1min 41.530 sec
10. James Toseland GBR Monster Yamaha Tech 3 1min 41.620 sec
11. Loris Capirossi ITA Rizla Suzuki MotoGP 1min 41.742 sec
12. Randy de Puniet FRA LCR Honda MotoGP 1min 41.773 sec
13. Niccolo Canepa ITA Pramac Racing 1min 41.910 sec
14. Chris Vermeulen AUS Rizla Suzuki MotoGP 1min 42.038 sec
15. Mika Kallio FIN Ducati Marlboro Team 1min 42.250 sec
16. Aleix Espargaro SPA Pramac Racing 1min 42.577 sec
17. Gabor Talmacsi HUN Scot Racing Team MotoGP 1min 42.736 sec

Fastest practice time:
Dani Pedrosa SPA Repsol Honda 1min 40.271sec (FP2)

2008 Indianapolis Grand Prix - 14/9/2008:
Pole position:
Valentino Rossi ITA Fiat Yamaha (B) 1min 40.776sec
Fastest race laps by manufacturer (wet):
Valentino Rossi ITA Fiat Yamaha (B) 1min 49.668sec
Nicky Hayden USA Repsol Honda (M) 1min 50.057sec
Casey Stoner AUS Ducati Marlboro (B) 1min 50.989sec
Ben Spies USA Rizla Suzuki (B) 1min 51.219sec
Anthony West AUS Kawasaki Racing (B) 1min 51.524sec

EXTREME MODIFICATION ON HONDA TIGER

MODIF EXTEREME,
This is an exlucive captured photo from exhibition modifikasi honda tiger
see the red coated honda tiger, it  looks good soper extreme

MODIFIKASI HONDA TIGER EXTREEME

modified honda tiger  with green coated , full green modified honda tiger 2009,

Monday, September 7, 2009

Used motorcycle Honda Pricelist

Used Honda Motor Cycle Pricelist

Looking for used Honda motorcycle? The following is prediction price of Honda Used Car in Jabodetabek (Jakarta, Bogor, Depok, Tangerang, Bekasi) regions. The price is just prediction maybe increase or sometime down without prior notification.
Honda Motor Tipe;Year, Price:
Win;1996;IDR3,500,000
Vario;2008;IDR10,500,000
Vario;2007;IDR9,600,000
Tiger;2006;IDR14,000,000
Tiger;2005;IDR10,600,000
Tiger;2004;IDR10,000,000
Tiger;2003;IDR9,600,000
Tiger;2002;IDR9,300,000
Tiger;2001;IDR9,000,000
Tiger;2000;IDR8,600,000
Tiger;1999;IDR8,100,000
Tiger;1998;IDR7,600,000
Tiger;1997;IDR7,300,000
Tiger;1996;IDR7,000,000
Tiger Revo;2008;IDR17,500,000
Tiger Revo;2007;IDR17,000,000
Supra X;2002;IDR4,750,000
Supra X;2001;IDR4,500,000
Supra X;2000;IDR4,000,000
Supra X 125;2008;IDR11,000,000
Supra X 125;2006;IDR8,000,000
Supra X 125;2005;IDR7,000,000
Supra X [...]

HONDA MEGAPRO METAMORPHOSIS

honda mega pro
metamorphosis from 2005 till 2009 now honda megapro 2009 is coming and ready to fight in the street.
http://www.bikepics.com/honda/megapro/

Kymco Resmi Bubar

Kymco indonesian motor manufactur
The news about the fate of the still Kymco maze, slowly began to unfold. Kymco is stopping production and sales, as in Indonesia Kymco ATPM disagree with principals in Korea.

Sunday, September 6, 2009

SPECIFICATION NEW HONDA MEGAPRO 2009



If AHM aftermath this bike to continous Honda Mega-Pro series, abiding can defeat Yamaha V-ixion and FZ-15 in sports cruiser chic . HONDA MEGAPRO 2009, But you can dream if AHM can aftermath this bike, haha . this bike featured 160cc old engine, advanced upside showa bottomward suspension, air-conditioned headlamp, basin box, abbreviate muffler (loud babble like Harley Davidson bikes but abundant power) . accessible in abundance red, dejected mountain, blooming leaf, chicken army (pasukan kuning) corrective .
This new Mega-Pro cascade 25Horsepower I anticipate abundant for Indonesian streets . Unique this bike is in the beat arm and rear abeyance (or centermost huh?) like MT alternation in Yamaha, but air-conditioned . Double seater and digitalized speedometer, RPM meter, and big auto . this is aloof concept, but I anticipate 5555years afresh AHM appetite to produces this bike :P Let’s draw a dream

Saturday, September 5, 2009

Valentino rossi in Stadium YAMAHA

 
Stadium Yamaha is your online source for Yamaha OEM Parts,

Star OEM Genitalia & Kymco OEM Parts, Yamaha & Star Accessories and Yamaha & Star Apparel.Online Yamaha OEM genitalia purchases are 22% Off. We accept a abounding band of Yamaha ATV’S, Yamaha & Star Motorcycles, Yamaha Side by Sides, Yamaha Personal Watercraft and Jet Skis. Adjustment your Yamaha Factory Service and Owner's Manuals absolute from Crestec by application the Buy Yamaha Manuals link.
Looking for a cruiser? Come into Stadium Yamaha and analysis out the latest cruisers STAR has to offer. The all new V-Max and V Star 950 !! Returning for 2009 are the Raider, Royal Star, Roadliner, Stratoliner, Alley Star, V-Star and the Warrior. We accept them all in stock.
Stadium Yamaha is one of the better Yamaha sportbike dealers in the country. Come in and analysis out the all new 2009 R1. We additionally accept the middleweight R6 and R6S in stock. Comfort and sportiness are accessible to acquisition in the FZ1 and FZ6. Tour in appearance in an FJR1300.
We additionally backpack a abounding band of Yamaha Scooters including the all new T-Max.
If you’re attractive to get bedraggled again we're your store. We adulation to ride Yamaha off alley motorcycles and ATV'S. Wouldn't you like to bang a set of whoops on a Yamaha YZ450F, YZ250F, YZ250, YZ125, YZ85 or go mudding on your Yamaha ATV? We can accumulate you activity with a abundant alternative of Yamaha motorcycle and Yamaha ATV benumbed apparel, Yamaha GYT-R achievement genitalia and Yamaha accessories.
If you're ambivalent booty a attending at the WR250R Trail and Street archetypal or the Supermoto aggressive WR250X.
Find the Yamaha Motorcycle, ATV, Side by Side or Personal Watercraft allotment you are attractive for by application Stadium Yamaha's OEM genitalia lookup system. You will again accept the actual Yamaha allotment cardinal to adjustment through our online store, area you will acquisition it actual acceptable to adjustment all of your 18-carat Yamaha parts, Yamaha accessories and Yamaha apparel.

Wednesday, September 2, 2009

JADWAL MOTO GP MUSIM 2009


Jadwal Moto GP Musim 2009
Qatar – Losail (night race)
Minggu, 12 April 2009


125 WUP 21:40 – 22:00
250 WUP 22:10 – 22:30
MotoGP WUP 22:40 – 23:05
125 RAC Mon-00:00
250 RAC 01:15
MotoGP RAC 03:00
Japan – Motegi
Minggu, 26 April 2009

125 WUP 06:40 – 07:00
250 WUP 07:10 – 07:30
MotoGP WUP 07:40 – 08:05
125 RAC 09:00
250 RAC 10:15
MotoGP RAC 12:00
Spain – Jerez
Minggu, 03 Mei 2009

125 WUP 13:40 – 14:00
250 WUP 14:10 – 14:30
MotoGP WUP 14:40 – 15:05
125 RAC 16:00
250 RAC 17:15
MotoGP RAC 19:00
France – Le Mans
Minggu, 17 Mei 2009

125 WUP 13:40 – 14:00
250 WUP 14:10 – 14:30
MotoGP WUP 14:40 – 15:05
125 RAC 16:00
250 RAC 17:15
MotoGP RAC 19:00
Italy – Mugello
Minggu, 31 Mei 2009

125 WUP 13:40 – 14:00
250 WUP 14:10 – 14:30
MotoGP WUP 14:40 – 15:05
125 RAC 16:00
250 RAC 17:15
MotoGP RAC 19:00
Catalunya – Catalunya
Minggu, 14 Juni 2009

125 WUP 13:40 – 14:00
250 WUP 14:10 – 14:30
MotoGP WUP 14:40 – 15:05
125 RAC 16:00
250 RAC 17:15
MotoGP RAC 19:00
Netherlands – Assen (Saturday Race)
Sabtu, 27 Juni 2009

125 WUP 13:40 – 14:00
250 WUP 14:10 – 14:30
MotoGP WUP 14:40 – 15:05
125 RAC 16:00
250 RAC 17:15
MotoGP RAC 19:00
United States – Laguna Seca (MotoGP Race Only)
Minggu, 05 Juli 2009

MotoGP WUP 23:40 – Sen-00:05
MotoGP RAC 04:00 (Senin)
Germany – Sachsenring
Minggu, 19 Juli 2009

125 WUP 13:40 – 14:00
250 WUP 14:10 – 14:30
MotoGP WUP 14:40 – 15:05
125 RAC 16:00
250 RAC 17:15
MotoGP RAC 19:00
Great Britain – Donington Park
Minggu, 26 Juli 2009

125 WUP 15:40 – 16:00
250 WUP 16:10 – 16:30
MotoGP WUP 16:40 – 17:05
125 RAC 18:30
250 RAC 19:45
MotoGP RAC 21:30
Czech Republic – Brno
Minggu, 16 Agustus 2009

125 WUP 13:40 – 14:00
250 WUP 14:10 – 14:30
MotoGP WUP 14:40 – 15:05
125 RAC 16:00
250 RAC 17:15
MotoGP RAC 19:00
Indianapolis – Indianapolis
Minggu, 30 Agustus 2009

125 WUP 19:40 – 20:00
250 WUP 20:10 – 20:30
MotoGP WUP 20:40 – 21:05
125 RAC 23:00
250 RAC Sen-00:15
MotoGP RAC 02:00 (senin)
San Marino & Riviera di Rimini – Misano
Minggu, 06 September 2009

125 WUP 13:40 – 14:00
250 WUP 14:10 – 14:30
MotoGP WUP 14:40 – 15:05
125 RAC 16:00
250 RAC 17:15
MotoGP RAC 19:00
Hungary – Balaton
Minggu, 20 September 2009

125 WUP 13:40 – 14:00
250 WUP 14:10 – 14:30
MotoGP WUP 14:40 – 15:05
125 RAC 16:00
250 RAC 17:15
MotoGP RAC 19:00
Portugal – Estoril
Minggu, 04 Oktober 2009

250 WUP 14:55 – 15:15
MotoGP WUP 15:25 – 15:50
125 WUP 16:00 – 16:20
250 RAC 17:15
MotoGP RAC 19:00
125 RAC 20:30
Australia – Phillip Island
Minggu, 18 October 2009

125 WUP 05:40 – 06:00
250 WUP 06:10 – 06:30
MotoGP WUP 06:40 – 07:05
125 RAC 09:00
250 RAC 10:15
MotoGP RAC 12:00
Malaysia – Sepang
Minggu, 25 October 2009

125 WUP 08:40 – 09:00
250 WUP 09:10 – 09:30
MotoGP WUP 09:40 – 10:05
125 RAC 11:00
250 RAC 12:15
MotoGP RAC 14:00
Valencia Ricardo Tormo – Valencia
Minggu, 08 November 2009

125 WUP 14:40 – 15:00
250 WUP 15:10 – 15:30
MotoGP WUP 15:40 – 16:05
125 RAC 17:00
250 RAC 18:15
MotoGP RAC 20:00

INDIANAPOLIS MOTOGP QUALIFYING TIMES

Third in the championship Casey Stoner has withdrawn until Estoril on October 4 to try and return to full fitness.



Stoner’s place at Ducati Marlboro has been taken by Mika Kallio, whose Pramac ride has been handed to Aleix Espargaro for Indianapolis and Misano. 20-year-old Espargaro is making his MotoGP debut this weekend.

1. Dani Pedrosa SPA Repsol Honda Team 1min 39.730 sec
2. Jorge Lorenzo SPA Fiat Yamaha Team 1min 40.236 sec
3. Valentino Rossi ITA Fiat Yamaha Team 1min 40.609 sec
4. Alex de Angelis RSM San Carlo Honda Gresini 1min 40.620 sec
5. Colin Edwards USA Monster Yamaha Tech 3 1min 40.961 sec
6. Nicky Hayden USA Ducati Marlboro Team 1min 41.067 sec
7. Toni Elias SPA San Carlo Honda Gresini 1min 41.283 sec
8. Andrea Dovizioso ITA Repsol Honda Team 1min 41.309 sec
9. Marco Melandri ITA Hayate Racing Team 1min 41.530 sec
10. James Toseland GBR Monster Yamaha Tech 3 1min 41.620 sec
11. Loris Capirossi ITA Rizla Suzuki MotoGP 1min 41.742 sec
12. Randy de Puniet FRA LCR Honda MotoGP 1min 41.773 sec
13. Niccolo Canepa ITA Pramac Racing 1min 41.910 sec
14. Chris Vermeulen AUS Rizla Suzuki MotoGP 1min 42.038 sec
15. Mika Kallio FIN Ducati Marlboro Team 1min 42.250 sec
16. Aleix Espargaro SPA Pramac Racing 1min 42.577 sec
17. Gabor Talmacsi HUN Scot Racing Team MotoGP 1min 42.736 sec

Fastest practice time:
Dani Pedrosa SPA Repsol Honda 1min 40.271sec (FP2)

2008 Indianapolis Grand Prix - 14/9/2008:
Pole position:
Valentino Rossi ITA Fiat Yamaha (B) 1min 40.776sec
Fastest race laps by manufacturer (wet):
Valentino Rossi ITA Fiat Yamaha (B) 1min 49.668sec
Nicky Hayden USA Repsol Honda (M) 1min 50.057sec
Casey Stoner AUS Ducati Marlboro (B) 1min 50.989sec
Ben Spies USA Rizla Suzuki (B) 1min 51.219sec
Anthony West AUS Kawasaki Racing (B) 1min 51.524sec

INDIANA POLIS MOTOGP THE RACE RESULT

Dani Pedrosa crashed while leading on lap 4, while Valentino Rossi crashed from a close second behind team-mate Jorge Lorenzo on lap 10 of 28.

Third in the championship Casey Stoner has withdrawn until Estoril on October 4 to try and return to full fitness.
Stoner’s place at Ducati Marlboro has been taken by Mika Kallio, whose Pramac ride has been handed to Aleix Espargaro for Indianapolis and Misano. 20-year-old Espargaro made his MotoGP debut this weekend.
1. Jorge Lorenzo SPA Fiat Yamaha Team 47min 13.592 sec
2. Alex de Angelis RSM San Carlo Honda Gresini 47min 23.027 sec
3. Nicky Hayden USA Ducati Marlboro Team 47min 26.539 sec
4. Andrea Dovizioso ITA Repsol Honda Team 47min 27.070 sec
5. Colin Edwards USA Monster Yamaha Tech 3 47min 39.846 sec
6. James Toseland GBR Monster Yamaha Tech 3 47min 46.000 sec
7. Loris Capirossi ITA Rizla Suzuki MotoGP 47min 47.992 sec
8. Mika Kallio FIN Ducati Marlboro Team 47min 48.448 sec
9. Toni Elias SPA San Carlo Honda Gresini 47min 58.597 sec
10. Dani Pedrosa SPA Repsol Honda Team 47min 58.969 sec
11. Chris Vermeulen AUS Rizla Suzuki MotoGP 47min 59.070 sec
12. Randy de Puniet FRA LCR Honda MotoGP 48min 5.886 sec
13. Aleix Espargaro SPA Pramac Racing 48min 17.144 sec
14. Gabor Talmacsi HUN Scot Racing Team MotoGP 48min 28.678 sec
DNF:
Valentino Rossi ITA Fiat Yamaha Team
Niccolo Canepa ITA Pramac Racing
Marco Melandri ITA Hayate Racing Team

Friday, August 28, 2009

2009 SUZUKI GSX-R 1000 SPEC AND REVIEWS

2009 SUZUKI GSX-R 1000 SPEC AND REVIEWS
Identification
Model Type Sport

BASE MSRP(US) $12,899.00
Dealers Suzuki Dealers
Warranty 12
Insurance Get a Quote
Engine:
Engine Type Horizontal In-line
Cylinders 4
Engine Stroke 4-Stroke
Cooling Liquid
Valves 16



Valves Per Cylinder 4
Valve Configuration DOHC
Compression Ratio 12.8:1
Starter Electric
Fuel Requirements Regular
Fuel Type Gas
Transmission:
Transmission Type Manual
Number Of Speeds 6
Primary Drive (Rear Wheel) Chain
Wheels & Tires:
Front Tire (Full Spec) 120/70 ZR17M/C 58W
Rear Tire (Full Spec) 190/50 ZR17M/C 73W
Brakes:
Front Brake Type Dual Hydraulic Disc
Rear Brake Type Hydraulic Disc
Technical Specifications:
Wheelbase (in/mm) 55.3 / 1405
Fuel Capacity (gal/l) 4.6 / 17.5

HONDA CBR1000RR - Honorable Mention Award

Honorable Mention – Honda CBR1000RR In the literbike class, the CBR1000RR
marries the lightest weight, sharpest steering and most potent midrange punch to create our favorite 1000cc sportbike.

BEST SPORTBIKE 2009 Kawasaki ZX-6R

Kawasaki ZX-6R awarded best sportbike 2009,Kawasaki ZX-6R best 2009 car award
Costly (to the OEMs) updates to the 600s arrive every two years in a never-ending quest to one-up their rivals. And it's for these reasons why the ZX-6R is so redoubtable. Kawasaki has built a motor that handily out-guns its 600cc rivals, but just as impressive is a 22-lb lighter machine that handles like a champ, aided by Showa's fabulous new Big Piston Fork. Doubly impressive is that the Ninja took top honors on both the street and track – no mean feat. Triumph's Daytona 675 gives the ZX a run for its money, but among four-cylinder middleweights, the nasty and nimble Ninja stands clearly at the top of this ultra-competitive heap.

BEST OF 2009 -MOTORCYCLES OF THE YEAR

Best of 2009 - Motorcycles of the YearTriumph street triple


Motorcycle of the Year , Triumph Street Triple R become the best motorcycle in 2009
the Street Triple R was introduced just last year, replete with the Daytona’s up-spec fully adjustable suspension and potent radial-mount Nissin brake calipers, alleviating all of our concerns. The result is an invigorating and versatile roadster that stickers for less than $10K. Lofting the front wheel is a snap, and before you know it you’ll be drifting out the back end like an inspired Brit hooligan. And on your favorite twisty back road, its friendly yet potent character is almost unbeatable, proving that no one really needs triple-digit horsepower peaks. Now that Triumph perfected the Street in our eyes, it became the perfect Standard. And it's our favorite motorcycle of 2009.

Friday, August 14, 2009

Skutik Yamaha T-Max Specification

this Skutik Yamaha T-Max Called T-Max, which comes with elegant design, but not until the sporti elements of a high output Yamaha scooter is great.

Skutik Yamaha T-Max





Photographers - Bagja Pratama
Yamaha has not only scooter Yamaha Mio imut such a fenomenal motorcycle market in the country, but also gambot a scooter even has engine capacity of nearly 4-fold from Mio.
http://oto.detik.com

Yamaha Gebrak Honda

Fierce competition between the two largest motorcycle manufacturer in indonesia it seems increasingly fierce. Evident in the data that wholesales sales detikOto obtained directly from them, appear to heat up the competition.



In the data obtained, Friday (14/8/2009), in July 2009 ago beat back Yamaha Honda sales in two days, respectively.

Yamaha in July 2009 succeeded in selling 253,683 units of the product sales that reached 241,028 Honda.

This result is a distinctive achievement. Given the Yamaha only during this time only once in passing to Honda.

Discharge data and with sales of both, so will not be long of total motorcycle sales of the national Association of Industrial Safety Indonesia (AISI) which is the umbrella brand almost all motor akan segera out.

For as detikOto made yesterday, the official discharge data from AISI is just waiting to live reports from both.

Thursday, August 13, 2009

Yamaha Mio SOUL




Futuristic Yamaha Mio SOUL
SOUL engine similar to the Mio Mio before, but you have a package that is very different - more futuristic. This is reflected in the form of a speedometer-style fighter. Similarly, the front is very stylish. Mio SOUL adopting the motor with the character of pro-CC.

One of the significant updates in the viscera of the air filter is powerless life the maximum 15,000 km without any treatment. Once the battery is now also use the dry battery (Free Maintenance)-free treatment.
Front of the boot now berdesain with versatile storage boxes on the two sides that include more. Feet are now more free to give comfort to the foot of rider.

Monday, August 10, 2009

SEJARAH KOMPUTER

  • Pengertian Komputer


Komputer adalah alat yang dipakai untuk mengolah data menurut prosedur yang telah dirumuskan. Kata computer semula dipergunakan untuk menggambarkan orang yang perkerjaannya melakukan perhitungan aritmatika, dengan atau tanpa alat bantu, tetapi arti kata ini kemudian dipindahkan kepada mesin itu sendiri. Asal mulanya, pengolahan informasi hampir eksklusif berhubungan dengan masalah aritmatika, tetapi komputer modern dipakai untuk banyak tugas yang tidak berhubungan dengan matematika.

Secara luas, Komputer dapat didefinisikan sebagai suatu peralatan elektronik yang terdiri dari beberapa komponen, yang dapat bekerja sama antara komponen satu dengan yang lain untuk menghasilkan suatu informasi berdasarkan program dan data yang ada. Adapun komponen komputer adalah meliputi : Layar Monitor, CPU, Keyboard, Mouse dan Printer (sbg pelengkap). Tanpa printer komputer tetap dapat melakukan tugasnya sebagai pengolah data, namun sebatas terlihat dilayar monitor belum dalam bentuk print out (kertas).

Dalam definisi seperti itu terdapat alat seperti slide rule, jenis kalkulator mekanik mulai dari abakus dan seterusnya, sampai semua komputer elektronik yang kontemporer. Istilah lebih baik yang cocok untuk arti luas seperti "komputer" adalah "yang memproses informasi" atau "sistem pengolah informasi."

Saat ini, komputer sudah semakin canggih. Tetapi, sebelumnya komputer tidak sekecil, secanggih, sekeren dan seringan sekarang. Dalam sejarah komputer, ada 5 generasi dalam sejarah komputer.


  • Generasi Komputer


1.) GENERASI PERTAMA

Dengan terjadinya Perang Dunia Kedua, negara-negara yang terlibat dalam perang tersebut berusaha mengembangkan komputer untuk mengeksploit potensi strategis yang dimiliki komputer. Hal ini meningkatkan pendanaan pengembangan komputer serta mempercepat kemajuan teknik komputer. Pada tahun 1941, Konrad Zuse, seorang insinyur Jerman membangun sebuah komputer, Z3, untuk mendesain pesawat terbang dan peluru kendali.

Pihak sekutu juga membuat kemajuan lain dalam pengembangan kekuatan komputer. Tahun 1943, pihak Inggris menyelesaikan komputer pemecah kode rahasia yang dinamakan Colossus untuk memecahkan kode rahasia yang digunakan Jerman. Dampak pembuatan Colossus tidak terlalu mempengaruhi perkembangan industri komputer dikarenakan dua alasan. Pertama, Colossus bukan merupakan komputer serbaguna(general-purpose computer), ia hanya didesain untuk memecahkan kode rahasia. Kedua, keberadaan mesin ini dijaga kerahasiaannya hingga satu dekade setelah perang berakhir.

Usaha yang dilakukan oleh pihak Amerika pada saat itu menghasilkan suatu kemajuan lain. Howard H. Aiken (1900-1973), seorang insinyur Harvard yang bekerja dengan IBM, berhasil memproduksi kalkulator elektronik untuk US Navy. Kalkulator tersebut berukuran panjang setengah lapangan bola kaki dan memiliki rentang kabel sepanjang 500 mil. The Harvard-IBM Automatic Sequence Controlled Calculator, atau Mark I, merupakan komputer relai elektronik. Ia menggunakan sinyal elektromagnetik untuk menggerakkan komponen mekanik. Mesin tersebut beropreasi dengan lambat (ia membutuhkan 3-5 detik untuk setiap perhitungan) dan tidak fleksibel (urutan kalkulasi tidak dapat diubah). Kalkulator tersebut dapat melakukan perhitungan aritmatik dasar dan persamaan yang lebih kompleks.

Perkembangan komputer lain pada masa kini adalah Electronic Numerical Integrator and Computer (ENIAC), yang dibuat oleh kerjasama antara pemerintah Amerika Serikat dan University of Pennsylvania. Terdiri dari 18.000 tabung vakum, 70.000 resistor, dan 5 juta titik solder, komputer tersebut merupakan mesin yang sangat besar yang mengkonsumsi daya sebesar 160kW.

Komputer ini dirancang oleh John Presper Eckert (1919-1995) dan John W. Mauchly (1907-1980), ENIAC merupakan komputer serbaguna (general purpose computer) yang bekerja 1000 kali lebih cepat dibandingkan Mark I.

Pada pertengahan 1940-an, John von Neumann (1903-1957) bergabung dengan tim University of Pennsylvania dalam usaha membangun konsep desain komputer yang hingga 40 tahun mendatang masih dipakai dalam teknik komputer. Von Neumann mendesain Electronic Discrete Variable Automatic Computer (EDVAC) pada tahun 1945 dengan sebuah memori untuk menampung baik program ataupun data. Teknik ini memungkinkan komputer untuk berhenti pada suatu saat dan kemudian melanjutkan pekerjaannya kembali. Kunci utama arsitektur von Neumann adalah unit pemrosesan sentral (CPU), yang memungkinkan seluruh fungsi komputer untuk dikoordinasikan melalui satu sumber tunggal. Tahun 1951, UNIVAC I (Universal Automatic Computer I) yang dibuat oleh Remington Rand, menjadi komputer komersial pertama yang memanfaatkan model arsitektur Von Neumann tersebut.

Baik Badan Sensus Amerika Serikat dan General Electric memiliki UNIVAC. Salah satu hasil mengesankan yang dicapai oleh UNIVAC dalah keberhasilannya dalam memprediksi kemenangan Dwilight D. Eisenhower dalam pemilihan presiden tahun 1952.

Komputer Generasi pertama dikarakteristik dengan fakta bahwa instruksi operasi dibuat secara spesifik untuk suatu tugas tertentu. Setiap komputer memiliki program kode biner yang berbeda yang disebut “bahasa mesin” (machine language). Hal ini menyebabkan komputer sulit untuk diprogram dan membatasi kecepatannya. Ciri lain komputer generasi pertama adalah penggunaan tube vakum (yang membuat komputer pada masa tersebut berukuran sangat besar) dan silinder magnetik untuk penyimpanan data.

2.) GENERASI KEDUA

Pada tahun 1948, penemuan transistor sangat mempengaruhi perkembangan komputer. Transistor menggantikan tube vakum di televisi, radio, dan komputer. Akibatnya, ukuran mesin-mesin elektrik berkurang drastis.

Transistor mulai digunakan di dalam komputer mulai pada tahun 1956. Penemuan lain yang berupa pengembangan memori inti-magnetik membantu pengembangan komputer generasi kedua yang lebih kecil, lebih cepat, lebih dapat diandalkan, dan lebih hemat energi dibanding para pendahulunya. Mesin pertama yang memanfaatkan teknologi baru ini adalah superkomputer. IBM membuat superkomputer bernama Stretch, dan Sprery-Rand membuat komputer bernama LARC. Komputer-komputer ini, yang dikembangkan untuk laboratorium energi atom, dapat menangani sejumlah besar data, sebuah kemampuan yang sangat dibutuhkan oleh peneliti atom. Mesin tersebut sangat mahal dan cenderung terlalu kompleks untuk kebutuhan komputasi bisnis, sehingga membatasi kepopulerannya. Hanya ada dua LARC yang pernah dipasang dan digunakan: satu di Lawrence Radiation Labs di Livermore, California, dan yang lainnya di US Navy Research and Development Center di Washington D.C. Komputer generasi kedua menggantikan bahasa mesin dengan bahasa assembly. Bahasa assembly adalah bahasa yang menggunakan singkatan-singakatan untuk menggantikan kode biner.

Pada awal 1960-an, mulai bermunculan komputer generasi kedua yang sukses di bidang bisnis, di universitas, dan di pemerintahan. Komputer-komputer generasi kedua ini merupakan komputer yang sepenuhnya menggunakan transistor. Mereka juga memiliki komponen-komponen yang dapat diasosiasikan dengan komputer pada saat ini: printer, penyimpanan dalam disket, memory, sistem operasi, dan program.

Salah satu contoh penting komputer pada masa ini adalah 1401 yang diterima secara luas di kalangan industri. Pada tahun 1965, hampir seluruh bisnis-bisnis besar menggunakan komputer generasi kedua untuk memprosesinformasi keuangan.

Program yang tersimpan di dalam komputer dan bahasa pemrograman yang ada di dalamnya memberikan fleksibilitas kepada komputer. Fleksibilitas ini meningkatkan kinerja dengan harga yang pantas bagi penggunaan bisnis. Dengan konsep ini, komputer dapat mencetak faktur pembelian konsumen dan kemudian menjalankan desain produk atau menghitung daftar gaji. Beberapa bahasa pemrograman mulai bermunculan pada saat itu. Bahasa pemrograman Common Business-Oriented Language (COBOL) dan Formula Translator (FORTRAN) mulai umum digunakan. Bahasa pemrograman ini menggantikan kode mesin yang rumit dengan kata-kata, kalimat, dan formula matematika yang lebih mudah dipahami oleh manusia. Hal ini memudahkan seseorang untuk memprogram dan mengatur komputer. Berbagai macam karier baru bermunculan (programmer, analis sistem, dan ahli sistem komputer). Industr piranti lunak juga mulai bermunculan dan berkembang pada masa komputer generasi kedua ini.

3.) GENERASI KETIGA

Walaupun transistor dalam banyak hal mengungguli tube vakum, namun transistor menghasilkan panas yang cukup besar, yang dapat berpotensi merusak bagian-bagian internal komputer. Batu kuarsa (quartz rock) menghilangkan masalah ini. Jack Kilby, seorang insinyur di Texas Instrument, mengembangkan sirkuit terintegrasi (IC : integrated circuit) di tahun 1958. IC mengkombinasikan tiga komponen elektronik dalam sebuah piringan silikon kecil yang terbuat dari pasir kuarsa. Pada ilmuwan kemudian berhasil memasukkan lebih banyak komponen-komponen ke dalam suatu chip tunggal yang disebut semikonduktor. Hasilnya, komputer menjadi semakin kecil karena komponen-komponen dapat dipadatkan dalam chip. Kemajuan komputer generasi ketiga lainnya adalah penggunaan sistem operasi (operating system) yang memungkinkan mesin untuk menjalankan berbagai program yang berbeda secara serentak dengan sebuah program utama yang memonitor dan mengkoordinasi memori komputer.

4.) GENERASI KEEMPAT

Setelah IC, tujuan pengembangan menjadi lebih jelas: mengecilkan ukuran sirkuit dan komponen-komponen elektrik. Large Scale Integration (LSI) dapat memuat ratusan komponen dalam sebuah chip. Pada tahun 1980-an, Very Large Scale Integration (VLSI) memuat ribuan komponen dalam sebuah chip tunggal.

Ultra-Large Scale Integration (ULSI) meningkatkan jumlah tersebut menjadi jutaan. Kemampuan untuk memasang sedemikian banyak komponen dalam suatu keping yang berukurang setengah keping uang logam mendorong turunnya harga dan ukuran komputer. Hal tersebut juga meningkatkan daya kerja, efisiensi dan keterandalan komputer. Chip Intel 4004 yang dibuat pada tahun 1971membawa kemajuan pada IC dengan meletakkan seluruh komponen dari sebuah komputer (central processing unit, memori, dan kendali input/output) dalam sebuah chip yang sangat kecil. Sebelumnya, IC dibuat untuk mengerjakan suatu tugas tertentu yang spesifik. Sekarang, sebuah mikroprosesor dapat diproduksi dan kemudian diprogram untuk memenuhi seluruh kebutuhan yang diinginkan. Tidak lama kemudian, setiap piranti rumah tangga seperti microwave, oven, televisi, dan mobil dengan electronic fuel injection (EFI) dilengkapi dengan mikroprosesor.

Perkembangan yang demikian memungkinkan orang-orang biasa untuk menggunakan komputer biasa. Komputer tidak lagi menjadi dominasi perusahaan-perusahaan besar atau lembaga pemerintah. Pada pertengahan tahun 1970-an, perakit komputer menawarkan produk komputer mereka ke masyarakat umum. Komputer-komputer ini, yang disebut minikomputer, dijual dengan paket piranti lunak yang mudah digunakan oleh kalangan awam. Piranti lunak yang paling populer pada saat itu adalah program word processing dan spreadsheet. Pada awal 1980-an, video game seperti Atari 2600 menarik perhatian konsumen pada komputer rumahan yang lebih canggih dan dapat diprogram.

Pada tahun 1981, IBM memperkenalkan penggunaan Personal Computer (PC) untuk penggunaan di rumah, kantor, dan sekolah. Jumlah PC yang digunakan melonjak dari 2 juta unit di tahun 1981 menjadi 5,5 juta unit di tahun 1982. Sepuluh tahun kemudian, 65 juta PC digunakan. Komputer melanjutkan evolusinya menuju ukuran yang lebih kecil, dari komputer yang berada di atas meja (desktop computer) menjadi komputer yang dapat dimasukkan ke dalam tas (laptop), atau bahkan komputer yang dapat digenggam (palmtop).

IBM PC bersaing dengan Apple Macintosh dalam memperebutkan pasar komputer. Apple Macintosh menjadi terkenal karena mempopulerkan sistem grafis pada komputernya, sementara saingannya masih menggunakan komputer yang berbasis teks. Macintosh juga mempopulerkan penggunaan piranti mouse.

Pada masa sekarang, kita mengenal perjalanan IBM compatible dengan pemakaian CPU: IBM PC/486, Pentium, Pentium II, Pentium III, Pentium IV (Serial dari CPU buatan Intel). Juga kita kenal AMD k6, Athlon, dsb. Ini semua masuk dalam golongan komputer generasi keempat.

Seiring dengan menjamurnya penggunaan komputer di tempat kerja, cara-cara baru untuk menggali potensial terus dikembangkan. Seiring dengan bertambah kuatnya suatu komputer kecil, komputer-komputer tersebut dapat dihubungkan secara bersamaan dalam suatu jaringan untuk saling berbagi memori, piranti lunak, informasi, dan juga untuk dapat saling berkomunikasi satu dengan yang lainnya. Jaringan komputer memungkinkan komputer tunggal untuk membentuk kerjasama elektronik untuk menyelesaikan suatu proses tugas. Dengan menggunakan perkabelan langsung (disebut juga Local Area Network atau LAN), atau [kabel telepon, jaringan ini dapat berkembang menjadi sangat besar.

5.) GENERASI KELIMA


Mendefinisikan komputer generasi kelima menjadi cukup sulit karena tahap ini masih sangat muda. Contoh imajinatif komputer generasi kelima adalah komputer fiksi HAL9000 dari novel karya Arthur C. Clarke berjudul 2001: Space Odyssey. HAL menampilkan seluruh fungsi yang diinginkan dari sebuah komputer generasi kelima. Dengan kecerdasan buatan (artificial intelligence atau AI), HAL dapat cukup memiliki nalar untuk melakukan percapakan dengan manusia, menggunakan masukan visual, dan belajar dari pengalamannya sendiri.

Walaupun mungkin realisasi HAL9000 masih jauh dari kenyataan, banyak fungsi-fungsi yang dimilikinya sudah terwujud. Beberapa komputer dapat menerima instruksi secara lisan dan mampu meniru nalar manusia. Kemampuan untuk menterjemahkan bahasa asing juga menjadi mungkin. Fasilitas ini tampak sederhana. Namun fasilitas tersebut menjadi jauh lebih rumit dari yang diduga ketika programmer menyadari bahwa pengertia manusia sangat bergantung pada konteks dan pengertian ketimbang sekedar menterjemahkan kata-kata secara langsung.

Banyak kemajuan di bidang desain komputer dan teknologi semkain memungkinkan pembuatan komputer generasi kelima. Dua kemajuan rekayasa yang terutama adalah kemampuan pemrosesan paralel, yang akan menggantikan model non Neumann. Model non Neumann akan digantikan dengan sistem yang mampu mengkoordinasikan banyak CPU untuk bekerja secara serempak. Kemajuan lain adalah teknologi superkonduktor yang memungkinkan aliran elektrik tanpa ada hambatan apapun, yang nantinya dapat mempercepat kecepatan informasi.

Jepang adalah negara yang terkenal dalam sosialisasi jargon dan proyek komputer generasi kelima. Lembaga ICOT (Institute for new Computer Technology) juga dibentuk untuk merealisasikannya. Banyak kabar yang menyatakan bahwa proyek ini telah gagal, namun beberapa informasi lain bahwa keberhasilan proyek komputer generasi kelima ini akan membawa perubahan baru paradigma komputerisasi di dunia.


Sumber : wikipedia





Tuesday, August 4, 2009

Bridgestone debrief : British GP

This year the British Grand Prix was held for the last time at Donington Park before it makes the move to Silverstone next season. During the race weekend, weather and tyres were
the talk of the paddock as it gave the riders and Bridgestone's tyres a range of conditions to deal with. Friday's practice started wet but was almost dry by the finish, though riders used Bridgestone's wets for the whole session. Saturday was dry all day allowing the use of slicks and Sunday was in between; a wet warm-up followed by a damp race. Despite light rain throughout the race, Andrea Dovizioso took his first win using Bridgestone's soft compound slicks. Only two riders chose to start the race on the wet tyres.

Q&A with Tohru Ubukata - Bridgestone Motorsport - Manager, Motorcycle Race Tyre Development

The conditions for the British GP were very changeable; what did this mean for tyre performance?

From Bridgestone's perspective, it meant that we were able to show the broad range of track and weather conditions that we are able to effectively deal with using just two compounds of slick tyre and a single wet compound.

It was a difficult race, but I am very happy with the outcome. It is always very tricky to deal with conditions that are right on the fine line between wet and dry, and correct tyre choice is a crucial but hard decision.

On Friday we saw that our wet tyres performed on what was a drying track, and on Sunday during the race we saw that our slick tyres performed impressively on a damp track: the race was declared wet but it was won on slick tyres so for us this is a great achievement for the performance of the 2009 Bridgestone tyres.

I also want to congratulate the riders for their demonstration of great skill in very tricky conditions. Riding technique is even more important with conditions like these, and without such effort from the riders we would not have seen such a good race. They were able to use all of the performance of our tyres on a very slippery track because of their great talent.

During the race, the track and air temperatures actually fell so this meant that tyre temperatures and therefore grip became harder to maintain. In conditions like these, it is not a question of tyre durability but of ensuring that the tyres are able to work well at a low temperature, especially as the rain both reduces the coefficient of grip of the tarmac and serves to actively cool the temperature of the tyres further. I am pleased that even using our medium compound front slick tyre Randy de Puniet finished the race in third in these conditions.

Towards the end of the race, after four riders had entered the pits to change to Bridgestone's wet tyres, riders on the slick tyres and the wet tyres were able to lap at the same pace which is the best indication of the overlap of their operating ranges we have seen all year.

How will you prepare for the next British GP at a circuit of which Bridgestone has no MotoGP experience?

It is correct that we have no MotoGP experience of the Silverstone circuit because it was last used by the premier class in 1986. We only entered MotoGP in 2002 but since then have shown that we learn fast.

Bridgestone also has a wealth of detailed tyre and track information on the Silverstone circuit thanks to our involvement with the Formula One World Championship since 1997.

This gives us an in-depth understanding of factors such as the condition and grip levels of the tarmac at the track. We will continue to study carefully the circuit's proposed layout amends, taking into account information such as the very fast predicted average lap speed, and build a detailed profile of Silverstone.

We know the operating ranges of tyre compounds, so when we combine all this information we will be able to select the most suitable slick and wet Bridgestone tyre compounds accordingly.

-credit: bridgestone

Wednesday, July 29, 2009

WALLPAPER 2010 Kawasaki KX250F and KX450F

WALLPAPER  2010 Kawasaki KX250F and KX450F, specification




Sure seems like there’s a lot in common with the 450F, and the price hike is no different. If this is the bike for you, the 2010 model rings in at $6999 - an extra 500 bucks over the ’09. Keep your fingers crossed for some First Rides on the KX450F and KX250F in August and September.

2010 Kawasaki KX250F Specs:

Engine: 4-stroke Single with DOHC and four valves
Displacement: 249cc
Bore x stroke: 77.0 x 53.6mm
Cooling: Liquid
Carburetion: Keihin FCR37 and hot start circuit
Compression ratio: 13.2:1
Ignition: Digital CDI with K-TRIC throttle position sensor
Transmission: Five-speed with wet multi-disc manual clutch
Final drive: Chain
Frame: Aluminum perimeter
Rake / trail: 27.4 degrees / 4.7 in.
Front suspension / wheel travel: 47mm inverted Showa twin-chamber telescopic fork with 16-way compression and rebound damping / 12.4 in.
Rear suspension / wheel travel: UNI-TRAK® linkage system and Showa shock with 13-way low-speed and stepless high-speed compression damping, 17-way rebound damping and fully adjustable spring preload / 12.2 in.
Front tire: 80/100-21
Rear tire: 100/90-19
Front brake: Single semi-floating 250mm petal disc with dual piston caliper
Rear brake: Single 240mm petal disc with single-piston caliper
Overall length: 85.4 in.
Overall width: 32.3 in.
Overall height: 50.0 in.
Wheelbase: 57.9 in.
Ground clearance: 13.4 in.
Seat height: 37.6 in.
Curb weight: 231.4 lbs. claimed
Fuel capacity: 2.1 Gal.
Color: Lime Green
MSRP: $6999

2010 Kawasaki KX85
As the sole remaining updated 2-stroke in Kawasaki's dirt bike lineup, the KX85 is holding on with some new graphics and black wheels.
2010 Kawasaki KX85
Kawasaki’s only updated 2-stroke motocross bike is unchanged for 2010 except for some aesthetic cues. Yes, you read correctly – no KX65 or KX100 will be produced this year, however, they have not been dropped entirely from the lineup. Kawi, along with the rest of the motorcycle world, still hasn’t introduced a super-mini-class 4-stroke to combat Honda’s CRF150R.

Some new graphics and black rims freshen things up and apparently are worth an extra $550 (MSRP $3849), but otherwise the KX85 is the same machine as in 2009.

2010 Kawasaki KX85 Specs:

Engine: 2-stroke single with KIPS®
Displacement: 84cc
Bore x stroke: 48.5 x 45.8mm
Cooling: Liquid
Carburetion: Keihin PWK28
Induction: Crankcase reed valve
Compression ratio: 10.0:1 (low speed) – 9.2:1 (high speed)
Ignition: Digital CDI
Transmission: Six-speed
Final drive: Chain
Frame: High-tensile steel perimeter design with subframe member
Rake / trail: 27 degrees / 3.5 in.
Front suspension / wheel travel: 36mm inverted telescopic cartridge fork with 18-way compression damping / 10.8 in.
Rear suspension / wheel travel: UNI-TRAK® single-shock system with 4-way compression and 16-way rebound damping, plus adjustable spring preload / 10.8 in.
Front tire: 70/100x17
Rear tire: 90/100x14
Front brake / rear brake: Hydraulic disc / Disc
Overall length: 71.7 in.
Overall width: 28.9 in.
Overall height: 41.5 in.
Ground clearance: 13.4 in.
Seat height: 33.1 in.
Curb weight: 152.1 lbs. claimed
Fuel capacity: 1.5 gal.
Wheelbase: 49.4 in.
Color: Lime Green/Ebony
MSRP: $3849

2009 Kawasaki Ninja ZX-14 Monster Energy





2009 Kawasaki Ninja ZX-14 Monster Energy



Ultimate Ninja® Superbike Adds Ominous Looks to Its Repertoire

For riders looking to shock and awe their rivals, the sinister looking special edition Kawasaki Ninja® ZX™-14 Monster Energy® is the sportbike of choice. Dressed in all black, it promises a cranked-up heart rate for anyone with a pulse, thanks to the black bodywork, frame and pinstriped wheels, highlighted by an aggressive Monster Energy graphics package.

The Monster Energy ZX-14 is a testament to effective engineering. Its engine and exhaust system permit it to comply with strict Euro-III emissions and tightening noise regulations. However, the ZX-14’s low-end torque, mid-range surge and its legendary Ninja peak power place it at the top of the sportbike food chain.

Kawasaki Versys Dektop wallpaper

this is wallpaper Kawasaki Versys, 2009 Kawasaki Versys U.S. Overview

Kawasaki announced the availability of the Versys in the U.S. market for 2008. "The new 2008 Kawasaki Versys is a machine which occupies a hard to define sweet spot in the motorcycling universe. Is it a practical commuter? Long-legged urban assault vehicle? Sportbike? Light Tourer?

The answer on all counts is a resounding Yes! This isn’t a niche specialist but rather a jack-of-all-trades with user-friendly versatility as one of its many charms.

The 649cc parallel twin and the neutral handling and light steering chassis of the Ninja 650R sportbike made the perfect starting point for this comfortable gridlock commando. A swoopy gull-wing swingarm, long-travel inverted 41mm fork, six-spoke Superbike-inspired wheels, adjustable-height windscreen and a comfortable cockpit were combined to create a motorcycle that just begs to be ridden wherever the pavement might lead."
Kawasaki Versys Features

* Aggressive styling
* Powerful parallel-twin engine



* Compact size and weight
* Long-travel suspension
* Comfortable cockpit



Monday, July 6, 2009

MOTO GP GRANDPRIX

Ducati Corse S.r.l.Image via Wikipedia

Note the time of the entire United States Grand Prix at Laguna Seca, round eight of the MotoGP World Championship in 2009.

Starting from the position of the four signs at the race start, Pedrosa and not guzzle gas passes directly tancap three drivers in front of it, Casey Stoner, Valentino Rossi and Jorge Lorenzo. Position is not left out by other drivers until the end of the race and reach perdananya victory in this season.

Lorenzo is currently didera injury yesterday when the qualification does not make a start with a good enough so that any direct Pedrosa led the race, continue to maintain, until finally crossing the line in the forefront of finis.

For Pedrosa, this is the first victory this season. Previously, he can just finis in position only when the two fight in Jerez, Spain. After using the latest sasis's Repsol Honda duo increasingly improved, unfortunately for Dovizioso who should drop in mid-race.

Meanwhile, the position in two races at Laguna Seca, on Monday (6/7/2009) dinihari WIB, be inhabited by Rossi in the race should be a little duel with Stoner, but note the Stoner continue melorot physical condition due to a lack of support to the position taken over by Lorenzo. Rossi was also dibayangi by Lorenzo and opportunity, but want to disalipnya Lorenzo broad so again taken over Rossi.

Lorenzo is a start in the first position must be satisfied in the final three positions. This result is quite sizable considering the start after he had terlempar from the three major positions.
  1. Dani Pedrosa SPA Repsol Honda Team — 44menit 1.580 detik
  2. Valentino Rossi ITA Fiat Yamaha Team — 44menit 1.924 detik
  3. Jorge Lorenzo SPA Fiat Yamaha Team — 44menit 3.506 detik
  4. Casey Stoner AUS Ducati Marlboro Team — 44menit 14.012 detik
  5. Nicky Hayden USA Ducati Marlboro Team — 44menit 23.243 detik
  6. Toni Elias SPA San Carlo Honda Gresini — 44menit 23.621 detik
  7. Colin Edwards USA Monster Yamaha Tech 3 — 44menit 31.781 detik
  8. Chris Vermeulen AUS Rizla Suzuki MotoGP — 44menit 34.437 detik
  9. Randy de Puniet FRA LCR Honda MotoGP — 44menit 41.905 detik
  10. Marco Melandri ITA Hayate Racing Team — 44menit 49.608 detik
  11. Alex de Angelis RSM San Carlo Honda Gresini — 44menit 50.390 detik
  12. Niccolo Canepa ITA Pramac Racing — 45menit 20.111 detik

Tidak finis:
Gabor Talmacsi HUN Scot Racing Team MotoGP
Loris Capirossi ITA Rizla Suzuki MotoGP
Andrea Dovizioso ITA Repsol Honda Team
Sete Gibernau SPA Grupo Francisco Hernando

Diskualifikasi:
James Toseland GBR Monster Yamaha Tech 3