Land_Rover-Discovery

Land_Rover-Discovery

Land Rover is a British car manufacturer with its headquarters in Gaydon, Warwickshire, United Kingdom which specialises in four-wheel-drive vehicles.
It is part of the Jaguar Land Rover group, a subsidiary of Indian Tata Motors since 2008.
It is the second oldest four-wheel-drive car brand in the world (after Jeep).
The Land Rover name was originally used by the Rover Company for one specific vehicle model, named simply the Land Rover, launched by Rover in 1948. Over the following years it developed into a marque encompassing a range of four-wheel-drive models, including the Defender, Discovery, Freelander, Range Rover, Range Rover Sport and Range Rover Evoque. Land Rovers are currently assembled in the company's Halewood and Solihull plants, with research and development taking place at JLR's Gaydon and Whitley engineering centres. Land Rover sold 194,000 vehicles worldwide in 2009.

The design for the original Land Rover vehicle was started in 1947 by Maurice Wilks, chief designer at the Rover Company, on his farm in Newborough, Anglesey. It is said that he was inspired by an American World War II Jeep that he used one summer at his holiday home in Wales. The first Land Rover prototype, later nicknamed 'Centre Steer', was built on a Jeep chassis and axles.
The early choice of colour was dictated by military surplus supplies of aircraft cockpit paint, so early vehicles only came in various shades of light green; all models until recently feature sturdy box section ladder-frame chassis.
The early vehicles, such as the Series I, were field-tested at Long Bennington and designed to be field-serviced; advertisements for Rovers cite vehicles driven thousands of miles on banana oil. Now with more complex service requirements this is less of an option. The British Army maintains the use of the mechanically simple 2.5-litre four-cylinder 300TDi-engined versions rather than the electronically controlled 2.5-litre five-cylinder TD5 to retain some servicing simplicity. This engine also continued in use in some export markets using units built at a Ford plant in Brazil, where Land Rovers were built under licence and the engine was also used in Ford pick-up trucks built locally. Production of the TDi engine ended in the United Kingdom in 2006, meaning that Land Rover no longer offers it as an option. International Motors of Brazil offer an engine called the 2.8 TGV Power Torque, which is essentially a 2.8-litre version of the 300TDi, with a corresponding increase in power and torque.
During its ownership by Ford, Land Rover was once again associated with Jaguar – the first time the two companies had been under the same ownership since the British Leyland era. In many countries they shared a common sales and distribution network (including shared dealerships), and some models shared components and production facilities.

Discovery I

The Discovery was introduced into the United Kingdom in 1989. The company code-named the vehicle "Project Jay". The new model was based on the chassis and drivetrain of the more upmarket Range Rover, but with a lower price aimed at a larger market segment and intended to compete with Japanese offerings. This was the only Discovery generation with four-cylinder engines.
The Discovery was initially available only as a three-door version and the five-door became available the following year. Both were fitted with five seats, with the option to have two further seats fitted in the boot. Land Rover employed an external consultancy, Conran Design Group, to design the interior. The brief was to ignore current car interior design and position the vehicle as a 'lifestyle accessory'. The interior incorporated a number of original features, although some ideas shown on the original interior mock-ups constructed inside a Range Rover bodyshell at Conran's workshops were left on the shelf, such as a custom sunglasses holder built into the centre of the steering wheel. The design was unveiled to critical acclaim, and won a British Design Award in 1989. The features that were retained included the majority of the interior being constructed from 'Sonar Blue' plastic (with blue cloth trim), map/magazine holding slots above the windscreen, hand-holds for rear passengers being incorporated into the head restraints of the front seats, remote radio controls on the instrument cluster, twin removable sunroof panels (including a special zip-up storage bag behind the rear seats) and the inclusion of a Land Rover-branded cloth fabric holdall in the front centre console for oddments storage that could be removed from the vehicle and worn as a 'handbag' using a supplied shoulder strap (relatively few of these bags have survived, making them collectable items). Despite such features the interior's basic structure was the same as the Range Rover and virtually all the switchgear and instruments came from other Rover Group cars such as the Maestro and Montego. Similarly on the exterior, as well as the necessary Range Rover panels, the Discovery used headlights from the Freight Rover van and taillights from the Maestro van. The latter would continue to bear the Austin Rover 'chevron' logo on their lenses until production of the first generation Discovery ended in 1998, ten years after Austin Rover ceased to exist.

Discovery I

The Series II Discovery debuted in autumn 1998 and in the US in 1999. Land Rover promoted that the Discovery Series II had been modified with 720 'differences'. The interior and exterior was re-worked to be less utilitarian, but it was still similar to the Series I. Every body panel was new except the rear door outer skin. The rear body was extended to improve load space but at the expense of added rear overhang, which adversely impacted off-road ability. Changes to the diesel engined models saw the 2,495 cc Td5 (in-line direct-injected straight-five engine introduced, in line with the updated Defender models. This electronically managed engine was smoother, producing more usable torque at lower revs than its 300 Tdi predecessor. The Td5 engine is often mistakenly attributed to BMW but the engine was derived from the Rover L-series passenger car engine and developed by Land Rover. The 3,948 cc V8 petrol version from the Disco 1 was replaced with the Range Rover P38 Thor 4.0-litre Rover-derived V8. There was no actual increase in capacity over the previous 3.9-litre engine. Although the basic design of the engine was similar it was actually quite different internally. It used a different crankshaft, had larger bearing journals with cross bolted caps and different con rods and pistons. The blocks were machined differently to accept extra sensors for the Gems and Bosch (thor) injection system and to allow the extra stroke of the 4.6 crankshaft. For the 2003 and 2004 model year Discovery II they changed to the 4.6-litre V8 (though the 4.0 continued as the only V8 option offered in the UK). ACE (Active Cornering Enhancement, an electronically controlled hydraulic anti-roll bar system) was fitted to some versions, which reduced cornering roll. Self-levelling air springs were fitted to some models and European type-approval for seven-seat vehicles was only given for air-sprung cars.

Discovery 3 / LR3

On 2 April 2004, Land Rover introduced the Discovery 3, marketed as the LR3 in North America. It retained the key features of the Discovery, such as the stepped roofline and steeply-raked windscreen. The LR3 name was chosen for North American markets due to negative quality associations with the Discovery name and (according to Land Rover) a preference in the American market for alpha-numeric model designations – the second generation Freelander was also re-designated for the North American market as the LR2.
Land Rover developed a body construction method, marketed as Integrated Body Frame (IBF), where the engine bay and passenger compartment is built as a monocoque, then mated to a basic ladder-frame chassis for the gearbox and suspension. Land Rover claims IBF combines the virtues of monocoque and ladder-frame – though it makes for a heavy vehicle, compromising performance and agility. The LR3 was offered with a rear locking differential.

 

Lamborghini-Veneno

Lamborghini-Veneno

The Lamborghini Veneno is set to make its video game debut in the upcoming Need for Speed Rivals game. The following trailer video for the upcoming game set for a release on November 19th showcases the $4 million Veneno in all its computer generated glory!
With just four units of the Lamborghini Veneno being produced, and just three of those going to customers, it’s inevitable no more than a handful of lucky people will ever get behind the wheel of the real thing. Thankfully, Need for Speed Rivals will give us mere mortals the closest opportunity to virtually get into the driver’s seat of Lamborghinis most outlandish car ever produced.

 ts design is consistently focused on optimum aerodynamics and cornering stability, giving the Veneno the real dynamic experience of a racing prototype, yet it is fully homologated for the road. With a maximum output of 750hp, the Lamborghini Veneno accelerates from 0 to 100 km/h in just 2.8 seconds and the top speed for this street-legal racing car stands at 355 km/h.The Lamborghini Veneno features a twelve-cylinder power unit with a displacement of 6.5 liters, an extremely fast-shifting 7-speed ISR transmission with 5 driving modes and permanent all-wheel drive, as well as a racing chassis with pushrod suspension and horizontal spring/damper units.

 In the year of its 50th anniversary Automobili Lamborghini is presenting an extremely exclusive model at the 2013 Geneva Motor Show. Only three unique units of the Lamborghini Veneno will be built and sold. Its design is consistently focused on optimum aerodynamics and cornering stability, giving the Veneno the real dynamic experience of a racing prototype, yet it is fully homologated for the road. With a maximum output of 552 kW / 750 hp, the Lamborghini Veneno accelerates from 0-100 km/h in just 2.8 seconds and the top speed for this street-legal racing car stands at 355 km/h. It is priced at three million Euros plus tax - and all three units have already been sold to customers.
Fully in keeping with the tradition of the brand, the name of the Veneno originates from a legendary fighting bull. Veneno is the name of one of the strongest and most aggressive fighting bulls ever. He is also famous for being one of the fastest bulls in the history of bullfighting. His name became popular in 1914, when he fatally wounded the famous torero José Sánchez Rodríguez during the bullfight in the arena Sanlúcar de Barrameda's, Andalusia, Spain. The Lamborghini Veneno features a twelve-cylinder power unit with a displacement of 6.5 liters, an extremely fast-shifting 7-speed ISR transmission with 5 driving modes and permanent all-wheel drive, as well as a racing chassis with pushrod suspension and horizontal spring/damper units. Above all, however, the Veneno benefits from the very special expertise that Automobili Lamborghini possesses in the development and execution of carbon-fiber materials - the complete chassis is produced as a CFRP monocoque, as is the outer skin of this extreme sports car. The inside, too, features innovative, Lamborghini-patented materials such as Forged Composite and CarbonSkin.

The Design
The Lamborghini Veneno brings the aerodynamic efficiency of a racing prototype to the road. Every detail of its form pursues a clear function - exceptional dynamics, optimum downforce with minimal drag and perfect cooling of the high-performance engine. Yet the Veneno is unmistakably a Lamborghini; it sticks firmly to the consistent design philosophy of all the super sports cars from Sant'Agata Bolognese. That includes the extreme proportions, as well as the powerfully arrow-shaped front end and the interplay between razor-sharp lines and precise surfaces.
The entire front end of the Lamborghini Veneno has been laid out for perfect airflow and downforce. The front end works as a large aerodynamic wing. Large channels guide the air to the outlets in the front hood and in front of the windshield, as well as to the front wheels. Characteristic for Lamborghini is the Y shape of the angular headlamps that reach well into the fenders as well as the scissor doors.
The division of the fenders from the car body is a reference to the world of sport prototypes and optimizes at the same time the aerodynamic flow. The side line of the Veneno is therefore dominated by enormous sills and the mighty wheel arches front and rear. Here, too, sophisticated aerodynamics ensure perfect airflow to the large openings for engine cooling and intake air.
Just like the front end, the rear of the Lamborghini Veneno has also been optimized for underbody aerodynamics and high speed cornering stability. The smooth underbody transitions into a substantial diffuser framing the four sizable exhaust pipes divided by a splitter to increase the level of downforce peak. Large openings serve to ventilate the engine bay and manage the airflow to the rear wing, with the only sealed area at the rear being reserved for the license plate. The rear lights, including brake lights, indicator lights and fog lights, pick up the Y theme as well. The engine cover sports six wedge-shaped openings, with the focus here, too, on optimum dissipation of heat from the engine. The engine cover extends into a large central "shark" fin, which improves efficiency during braking and rear-end stability, by delivering additional downforce at high yaw angles and thus increasing the high-speed cornering performance

The Technology
The Veneno is further proof of Automobili Lamborghini's unique competence in CFRP-based lightweight design. A monocoque made from carbon-fiber reinforced polymer forms the basis of the Veneno. It is largely similar to the Aventador monocoque - as are the aluminum sub-frames front and rear - although its form has been adapted to the new design. All exterior parts are made from CFRP. The Lamborghini Veneno meets all safety and registration requirements worldwide, and naturally also incorporates a full complement of safety systems from airbags through to the adapted ESP handling system.
Carbon fiber dominates the interior of the Lamborghini Veneno, too. The carbon fiber monocoque becomes visible inside the car in the area of the central tunnel and the sills. The two lightweight bucket seats are made from Lamborghini's patented Forged Composite. The woven carbon-fiber CarbonSkin® is used to clad the entire cockpit, part of the seats and the headliner. This unique material is soaked in a very special kind of resin that stabilizes the fiber structure, while allowing the material to remain supple. Like a hi-tech fabric, this extremely fine-looking carbon-fiber matting fits perfectly to any form, and it reduces weight.
The racing personality has been transferred also to the instrument panel. It has been completely redesigned and now, thanks to an aggressive graphics and to the introduction of some additional features like the G-meter, provides all necessary information to the driver for control of the car.

Jaguar-F

Jaguar-F

The Jaguar F-Type is a two-seat sports car, based on a shortened platform of the XK convertible, produced by Jaguar Cars from 2013.
The F-Type was developed under the project code "X152". A similarly sized concept car, the C-X16, was shown at the Frankfurt Motor Show in September 2011.
The car was launched initially as a soft-top convertible, with a coupe version expected to be launched in 2014.

Production model

Jaguar F-Type unveiled at the Paris Auto Show 2012

The Jaguar F-Type convertible was officially launched at the 2012 Paris Motor Show.

Chassis

The F-Type uses an all-aluminium chassis, sound and vibration insulation is provided by the addition of a special underbody tray and engine mounts, and a double bulkhead between the engine bay and passenger compartment. The convertible roof is an electrically operated retractable fabric hood. Jaguar says by eschewing metal it can keep the car’s centre of gravity low, while a Thinsulate layer means thermal and sound insulation is akin to a solid roof.

Powertrain

The entry-level F-Type uses Jaguar’s new 3.0-litre V6 supercharged petrol engine, good for 340 PS (250 kW; 340 hp), 0 to 60 mph (0 to 97 km/h) in 5.1 seconds, and a top speed of 161 mph (259 km/h). In the middle comes the F-Type S, with the same engine tuned for 380 PS (280 kW; 370 hp), a top speed of 171 mph (275 km/h), and 0 to 60  mph in 4.8 seconds. The top of the range model is the V8S, with Jaguar’s 5.0-litre, 495 PS (364 kW; 488 hp) supercharged petrol engine. The layout is front-engined, rear-wheel-drive. The gearbox is an eight-speed automatic with paddle-shifters offering manual override. There is a mechanical limited-slip differential on the V6 S and an electronic limited-slip differential on the V8.

Suspension

The F-Type has double-wishbone front and rear suspension with adaptive dampers and adjustable suspension settings to allow the driver to tweak ride and handling. Jaguar F-Type has a total of 25 different driving modes programmed to suit different road conditions and driving styles.

Interior

The Jaguar F-Type interior has a two-seater setup with the leather interior and control buttons finished in aluminium. There is a touchscreen display in the centre console and another TFT display between the dials in the instrument panel. There is also a choice of flat-bottom or alcantara finish for the three-spoke steering wheel and buttons finished in soft-feel matt black.

Equipment

Jaguar has introduced a stop-start engine shutoff function, which Jaguar claims boosts economy by 5 per cent.
The F-Type has bi-xenon headlights with integrated LED daytime running lights, along with full LED lighting at the rear. The S and V8S versions get an “active exhaust system” which opens special valves over 3,000 rpm to intensify the sound profile.
There is a retractable rear wing spoiler and door handles that are left hidden with the bodywork until needed. The fabric hood raises or lowers in 12 seconds, and can be used when the car is moving at up to 48 km/h (30 mph).
The audio systems offered, use Meridian technology with either 380 W spread across ten speakers or 770 W across twelve speakers.

 

Model	Years	Engine type	Power	Torque	Emissions (CO2)
3.0-litre supercharged V6 petrol	2013–	2,995 cc (183 cu in) (AJ126)	340 PS (250 kW; 335 hp) @ 6,500 rpm	450 N·m (330 lb·ft) @ 3,500–5,000 rpm	209g/km
3.0-litre supercharged V6 petrol	2013–	2,995 cc (183 cu in) (AJ126)	380 PS (279 kW; 375 hp) @ 6,500 rpm	460 N·m (340 lb·ft) @ 3,500–5,000 rpm	213g/km
5.0-litre supercharged V8 petrol	2013–	5,000 cc (305 cu in) (AJ133)	495 PS (364 kW; 488 hp) @ 6,500 rpm	625 N·m (461 lb·ft) @ 2,500–5,500 rpm	259g/km

Cadillac STS

Origins

The STS was the successor to the Cadillac Seville. That car used the STS name, standing for Seville Touring Sedan on upscale performance-oriented versions beginning in 1988. In 1992, Cadillac split the Seville line into STS and less performance-oriented SLS (for Seville Luxury Sedan) trim lines. The next year, the STS received Cadillac's then-new Northstar System, including the aluminium DOHC L37 Northstar V8 engine. Throughout its existence, the STS was Cadillac's highest-priced sedan. Worldwide, the STS was Cadillac's flagship model. In the United States and Canada, the STS in its day was positioned between the smaller mid-size CTS and larger full-size DTS, but was priced above the latter.

The front wheel drive Seville was retired in 2004, replaced by an entirely new STS model based on the rear wheel drive GM Sigma platform. All wheel drive is offered as an option, the first Cadillac sedan to be available with this drive system. The STS carries on the Magnetic Ride Control suspension, which has bragging rights as being the 'fastest reacting suspension ever,' before it was ever utilized on newer Corvettes and Ferraris.
The Cadillac STS was assembled at GM's Lansing Grand River facility in Lansing, Michigan along with the smaller Cadillac CTS sedan.
Available engines were a 3.6 L High Feature LY7 V6 with 255 hp (190 kW) and 252 lb·ft (342 N·m) and the 4.6 L Northstar LH2 V8 which puts out 320 hp (240 kW) and 315 lb·ft (427 N·m) in the STS. All engine models feature dual overhead camshafts with VVT. Remote ignition is standard. Although most 2005 and 2006 Cadillac STS models offer a 255 hp (190 kW) engine, an option for a 4.6 L 320 hp (239 kW) engine was available at the time through Cadillac's performance packages. As of 2007, Cadillac now has different packages and car models, which no longer support this option.
Wheelbase was 116.4 in (2,957 mm), though overall length was shorter than the Seville. Interior space was greater than its predecessor. A heads-up display was optional, as was a 300-watt Bose stereo system with MP3 capability. Base pricing started at US$40,995 (slightly higher than the DTS, which was longer but had front-wheel drive), and extended to US$52,240 for the AWD V8 model.

For the 2007 model year, the Chinese market received the Cadillac SLS. Compared to the STS, the SLS has a longer wheelbase, unique interior appointments, and a near-identical exterior appearance. Engine choices are the 2.8-liter V-6, 3.6-liter V-6 (the non-direct-injection version shared with the 2005-2007 STS V-6), and the same 4.6-liter Northstar V-8 as in the STS V-8.
The Chinese-Spec SLS received a facelift at the end of 2009, and was sold as a 2010. The grill, bumper and many other details were revised. Shanghai-GM also introduced the OnStar system to the model. Two SIDI engines were introduced, a 272 hp 3.0L and a 310 hp 3.6L. The SLS is priced from 448,000RMB to 698,000RMB.

 For 2008, the STS was updated. Changes included a refreshed exterior, with styling cues resembling the 2008 CTS, such as larger, more aggressive grille and chrome fender vents. The interior was updated, with new materials and a new steering wheel, though the overall interior design remained the same, despite previous rumors of an all-new interior similar to that of the Chinese-market SLS. The standard powertrain was a direct-injected 3.6 L V6 mated to a six-speed automatic transmission, which in the STS produced 302 horsepower (225 kW) and 272 lb·ft (369 N·m) of torque. It also offered enhanced safety features, including a lane departure warning system developed by Mobileye, a blind spot monitoring system, and an improved version of GM's StabiliTrak stability control system, which could operate the steering system in addition to the brakes to help correct a skid. Additionally, options previously limited to the V8 model (such as HID headlamps and heads-up display) were available with the V6. The 2008 Cadillac STS debuted at the 2007 New York Auto Show.

• 3,564 cc 3.6 liters V 6 front engine with 94 mm bore, 85.6 mm stroke, 10.2 compression ratio, double overhead cam, variable valve timing/camshaft and four valves per cylinder LY7
• Unleaded fuel 87
• Fuel consumption: EPA urban (mpg): 17, country/highway (mpg): 25 and combined (mpg): 20
• Fuel economy EPA highway (mpg): 25 and EPA city (mpg): 17
• Multi-point injection fuel system
• 17 gallon main unleaded fuel tank
• Power: 190 kW , 255 HP SAE @ 6,500 rpm; 252 ft lb , 342 Nm @ 2,800 rpm

Cadillac

Cadillac

Cadillac is a division of United States-based General Motors Company (GM) that markets luxury vehicles worldwide. Cadillac's primary markets are the United States, Canada, and China. Cadillac-branded vehicles are also distributed in 34 additional markets worldwide. In 2012, Cadillac's U.S. sales were 149,782 vehicles.
The SRX crossover has been Cadillac's best selling model since 2010.
Cadillac is currently the second oldest American automobile brand following fellow GM marque Buick and is among the oldest automobile brands in the world. Cadillac was founded in 1902 by Henry Leland, a master mechanic and entrepreneur, who named the company after Antoine Laumet de La Mothe, sieur de Cadillac, the founder of the city of Detroit, and the Cadillac crest is based upon his coat of arms.

Early history

Foundation

Cadillac was formed from the remnants of the Henry Ford Company. After Henry Ford departed the Henry Ford Company along with several of his key partners in March 1902, the company was dissolved. Ford's financial backers, William Murphy and Lemuel Bowen, called in engineer Henry M. Leland of Leland & Faulconer Manufacturing Company to appraise the plant and equipment in preparation for a liquidation of the company's assets.
Instead of offering an appraisal, Leland persuaded Murphy and Bowen to continue manufacturing automobiles using Leland's proven single-cylinder engine. A new company called the Cadillac Automobile Company was established on 22 August 1902. The company was named after French explorer Antoine Laumet de La Mothe, sieur de Cadillac, who founded Detroit in 1701.

First automobiles

1903 Cadillac Model A

Cadillac's first automobiles, the Runabout and Tonneau, were completed in October 1902. They were two-seat horseless carriages powered by a 10 hp (7 kW) single-cylinder engine. They were practically identical to the 1903 Ford Model A. Many sources say the first car rolled out of the factory on 17 October; in the book Henry Leland – Master of Precision, the date is 20 October; another reliable source shows car number 3 to have been built on 16 October. Cadillac displayed the new vehicles at the New York Auto Show in January 1903, where the vehicles impressed the crowds enough to gather over 2,000 firm orders. Cadillac's biggest selling point was precision manufacturing, and therefore, reliability; a Cadillac was simply a better-made vehicle than its competitors.

• Engine: 6.2L Vortec Veight-cylinder OHV with variable valve timing and two valves per cylinder
• E85 / unleaded fuel
• Fuel economy: EPA (08):, 10 MPG city, 15 MPG highway, 12 MPG combined and 312 mi. range
• Multi-point fuel injection
• 26.0gallon fuel tank
• Power (SAE): 403 hp @ 5,700 rpm; 417 ft lb of torque @ 4,300 rpm
• Secondary fuel economy:

 1915 Cadillac introduced a 90-degree flathead V8 engine with 70 horsepower (52 kW) at 2400 rpm and 180 pound-feet (240 N·m) of torque, allowing its cars to attain 65 miles per hour. This was faster than most roads could accommodate at this time. Cadillac pioneered the dual-plane V8 crankshaft in 1918. In 1928 Cadillac introduced the first clashless Synchro-Mesh manual transmission, utilizing constant mesh gears. In 1930 Cadillac implemented the first V-16 engine, with a 45-degree overhead valve, 452 cubic inches, and 165 horsepower (123 kW), one of the most powerful and quietest engines in the United States. The development and introduction of the V8, V16 and V-12 helped to make Cadillac the "Standard of the World." A later model of the V8 engine, known as the overhead valve, set the standard for the entire American automotive industry in 1949.
In July 1917, the United States Army needed a dependable staff car and chose the Cadillac Type 55 Touring Model after exhaustive tests on the Mexican border. 2,350 of the cars were supplied for use in France by officers of the American Expeditionary Force during World War I. General Motors of Canada built Cadillac 1923 to 1936 and saved it from A. P. Sloan from his wanting to stop the build. Pre-World War II Cadillacs were well-built, powerful, mass-produced luxury cars aimed at an upper class market. In the 1930s, Cadillac added cars with V12 and V16 engines to their range, many of which were fitted with custom coach-built bodies.

Cadillac introduced a new design philosophy for the 21st century called "Art and Science^" which it claims "incorporates sharp, sheer forms and crisp edges – a form vocabulary that expresses bold, high-technology design and invokes the technology used to design it." This new design language spread from the original CTS and to the Cadillac XLR roadster. Cadillac's model lineup mostly included rear- and all-wheel-drive sedans, roadsters, crossovers and SUVs. The only exceptions were the front-wheel drive Cadillac BLS (which was not sold in North America) and the Cadillac DTS, neither of which are still in production. The second-generation CTS-V is a direct competitor to the BMW M5. An automatic version of the CTS-V lapped the Nürburgring in 7:59.32, at the time a record for production sedans.