Mercedes-Benz donates 2 million baht from "Shine for Tomorrow" campaign to four hospitals at the forefront of battling with Covid-19

Mercedes-Benz Thailand has successfully concluded its "Shine for Tomorrow" campaign after Mercedes-Benz customers joined in to pose with their vehicle with headlamps on and share the photos on social media during April 28 and May 31. This initiative is intended as a fundraising event from which proceeds go to four key hospitals at the forefront of treating patients afflicted with Covid-19 in Thailand, and as a “thank you” gesture to health care professionals as they are battling with the ongoing situation. The campaign received an overwhelming response from the public and earned 2 million baht of donation in total.

Mr. Roland Folger, President and CEO of Mercedes-Benz (Thailand) Limited, said, “Mercedes-Benz launched the 'Shine for Tomorrow' campaign to encourage Mercedes-Benz vehicle owners to band together in thanking medical professionals for their hard work and dedication in improving health and wellbeing of Thai people during the pandemic, with Mercedes-Benz donating 500 baht for each post."

Throughout the period of the "Shine for Tomorrow" campaign, thousands of Mercedes-Benz owners, including celebrities like Jetrin “J” Wattanasin, had marched in to champion the medical staff. The participants engaged with the event by posting a picture of themselves with their Mercedes-Benz while turning the headlamps on on social media of their choice, such as Facebook and Instagram. Along with these dazzling and meaningful photos attached encouraging messages and hashtags #ShineForTomorrow #MercedesForTomorrow #MercedesBenzThailand that each participant wrote to support medical workers.

Folger added, "Through this campaign, we managed to raise a total of 2 million baht as expected. We have allocated 500,000 baht to each of the four hospitals that are at the front and center in taking care of patients infected with the novel coronavirus, including Siriraj Hospital, Ramathibodi Hospital, Chulalongkorn Hospital and Bamrasnaradura Infectious Diseases Institute, to support the hospitals in their medical operations and future researches on Covid-19 vaccine."

“On behalf of Mercedes-Benz, I would like to thank everyone for being part of this celebration of the heroes who keep us save and sound during the pandemic. We are proud to be able to leverage our communication and advocacy power to contribute to the greater good. Such initiative as ‘Shine for Tomorrow’ proves that the spirit of solidarity is invaluable empowerment. It also goes to show that, whenever our world is in crisis, the collective support from fellow members of the society will always be the light of hope that shines through the dark," concluded Folger.

Signing Ceremony of the Ratchaphatsadu Land Lease Agreement for Electricity Generation and Chilled Water Supply in Development of U-Tapao International Airport and Eastern Airport City Project

Mr. Sontirat Sontijirawong, Energy Minister of the Kingdom of Thailand presided over the Signing Ceremony of the Agreement to Lease State land (Ratchaphatsadu) for the Purpose of Producing Electricity and Chilled Water at the U-Tapao International Airport and Eastern Airport City Development Project between the Eastern Economic Corridor Office of Thailand (EECO) and B.Grimm Power Public Company Limited (BGRIM). Dr. Kanit Sangsubhan, Secretary-General of the EECO; and Mr. Harald Link, Chairman of B.Grimm, and Mrs. Preeyanart Soontornwata, President of B.Grimm Power Public Company Limited participated in the signing ceremony at the Mandarin Oriental Hotel, Bangkok. The event was witnessed by representatives from relevant government agencies and private companies and organisations.

The Public Private Partnership Agreement of the U-Tapao International Airport and Eastern Airport City Project which was signed on Friday 19 June 2020 is considered one of the key infrastructure investment projects of the EEC to elevate the U-Tapao International Airport to become “Bangkok’s Third Major Commercial International Airport”, with connection to Don Mueang and Suvarnabhumi International Airports via high-speed rail link. The three airports will be able to accommodate a total of 200 million passengers a year. The region is poised to become the centre of tourism industry, the logistics and aviation hub as well as becoming the “Eastern Aerotropolis” thus driving Thailand towards becoming an aviation hub and Asia’s economic gateway.

The project to produce electricity and chilled water is part of the utilities system development in the U-Tapao International Airport and Eastern Airport City that will prime the area to accommodate the expansion of passengers, logistics and aviation businesses, and the vision of becoming the centre for E-commerce businesses and technology hub for aviation. 

The Royal Thai Navy as the agency responsible for the Project to develop the U-Tapao International Airport and Eastern Airport City together with EECO has selected B.Grimm Power Public Company Limited as the company to lease 100 Rai of State land to carry out utilities development system which include the electricity and cooling water systems to accommodate the development of the U-Tapao International Airport and Eastern Airport City. The electricity will be produced using hybrid power generation system from a cogeneration power plant which sources its raw materials from natural gas and PV Solar Farm, a type of clean energy source in line with the key guiding concepts of the EEC. The total electricity generation capacity is 95 Megawatts equipped with the smart Energy Storage System (ESS) of 50 Megawatt-hours. The system is also prepared to utilise other types of electricity sources should the airport reach its highest level of development and demanding more than 95 megawatts of electricity. The system’s energy security will be further enhanced by the energy storage system with the capacity to store 100 percent of electricity produced. The heat resulted from electricity generation will be converted to the production of chilled water used in the air-conditioning system of the airport, thus moving towards maximum utilisation of energy while reducing any environmental impacts.

Moreover, the hybrid power generation system is able to select efficient or economical sources of power in order to provide electricity with continuity and stability. The energy storage system reduces any damage which may affect electrical devices that are normally in operation for 24 hours. This will also be an efficient and convenient system for passengers of the U-Tapao International Airport .

Mr. Harald Link, Chairman of B.Grimm stated that B.Grimm Power Public Company Limited is delighted to sign the lease agreement of Ratchaphatsadu land to carry out the business of producing electricity and chilled water for the U-Tapao International Airport and Eastern Airport City Development Project which is considered an immensely important project among infrastructure development projects of the EEC. The U-Tapao International Airport will become the new commercial international airport of the future which will contribute significantly to the nation’s economic growth. It is our greatest pride and honour for B.Grimm as a Thai company that has contributed to Thailand’s key infrastructure developments over the past 142 years of its business.

BGRIM has been entrusted with this honour by the Royal Thai Navy and the EECO to be responsible for the production of electricity and chilled water for the U-Tapao International Airport and Eastern Airport City Development Project because the Company has expertise in the successful construction, development, and management of power plants in the leading major industrial areas in the provinces under the EEC project. This began in 1995 when the Company started developing a cogeration power plant. Hence BGRIM is fully confident that the Company will be able to utilise its readiness and its experience to develop a new power plant for the U-Tapao International Airport and Eastern Airport City Development Project to its highest ability. The opportunity and honour entrusted on BGRIM will lead to greater capacity to accommodate the increasing demand for quality electricity in this special development area.

Moreover, the Company has been cooperating closely with the world’s leading partners including China Energy Engineering Corporation or Energy China, a top state owned conglomerate speciailising in energy from the People’s Republic of China which provides the hybrid power generation technology for construction, and Korea Electric Power Corporation or KEPCO, a state enterprise and the largest electric utility from the Republic of Korea with expertise in a provision of the Energy Storage System (ESS) technology and the Smart Energy Management System (EMS). The Company also collaborates with Siemens from Germany which provides continued support for Gas & Steam Turbine technology to the project. Such close collaboration guarantees that BGRIM will be able to develop an electricity production and distribution system that is secure, stable, modern and environmental-friendly to the highest efficiency, contributing to the foundation of the key infrastructure systems that will drive the U-Tapao International Airport and Eastern Airport City Development Project to success as envisioned in the Government’s strategies.

Mrs. Preeyanart Soontornwata, President of BGRIM commented that currently the Company is, in all aspects, more than ready to ensure that the work to implement the policy of developing the U-Tapao International Airport can be carried out immediately. The hybrid electricity generation system for the U-Tapao International Airport and the Eastern Airport City Development Project will be ready for Commercial Operation Date (COD) in 2024. It will become one of the largest hybrid power plants in the world efficiently utilising the three electricity-generating systems. It will be able to bring to the fore the most modern, stable and efficient power generation technology while ensuring safety, sustainability, and friendliness to the environment. This power plant is considered a key utilities project that will truly be able to foster energy security for the future for the U-Tapao International Airport and Eastern Airport City Development Project in accordance with the Government’s development policies.

Xiaomi makes a reappearance in the world’s 50 most innovative companies

Ranked 24th, Xiaomi is acknowledged for its boundary-busting innovation efforts

This is the third time the company has made the list after being ranked at No. 35 of 2014 and 2016 respectively

Bangkok, Thailand, June 25, 2020 – Global technology leader Xiaomi is ranked at No. 24 among the 50 most innovative companies of 2020 in the world, making its reappearance on the list, according to a latest report by Boston Consulting Group (BCG).

The BCG report titled: The Most Innovative Companies 2020: The Serial Innovation Imperative, acknowledges Xiaomi for its active cross industry innovation efforts, based on a new scoring dimension that captures each firm’s variety and intensity of boundary breaking.

“In a world where every industry is becoming a technology industry to some degree, this kind of boundary-busting innovation is an increasingly important innovation capability,” according to the report.

“This result is in tandem with our mission of letting everyone in the world enjoy a better life through innovative technology, something that has been widely recognized by our Mi Fans and users in over 90 markets around the world where we are present,” said Shou Zi Chew, President of International, Xiaomi.

“At this company, we embrace a culture of bold innovation to push the boundaries of what technology can offer. A spirit of innovation permeates our company and guides our pursuits of relentlessly building amazing products, while bringing down the barrier of innovative technologies,” Shou added.

The company is committed in investing at least RMB 50 billion (~USD 7 billion) over the next five years in “5G+AIoT” to double down on its lead in the “5G+AI+IoT” (5G+AIoT) and next generation super internet”, and to ensure the company wins in this new smart era.

The company has also continuously increased its research and development (R&D) investment. In 2019, the company’s R&D investment reached RMB 7.5 billion, a 29.7% year-on-year increase on the back of substantial R&D expansion for the three prior years. In 2020, the investment is expected to increase to RMB 10 billion. As of March 31, 2020, the R&D personnel, totaling 8,984, were staffed across various departments, accounting for 48.6% of all full-time employees.

Xiaomi’s patent portfolio covers many fields with respect to smartphones, smart hardware, internet technologies, manufacturing and product design. As of December 31, 2019, the company held over 14,000 granted patents and over 16,000 pending patent applications worldwide. Among the granted ones, over 6,500 patents were registered in various overseas countries and jurisdictions.

This is the third time Xiaomi has made the list. The company ranked as No. 35 twice respectively among the 50 most innovative companies of 2014 and 2016.

About Xiaomi Corporation
Xiaomi Corporation was founded in April 2010 and listed on the Main Board of the Hong Kong Stock Exchange on July 9, 2018 (1810.HK). Xiaomi is an internet company with smartphones and smart hardware connected by an IoT platform at its core.

With an equal emphasis on innovation and quality, Xiaomi continuously pursues high-quality user experience and operational efficiency. The company relentlessly builds amazing products with honest prices to let everyone in the world enjoy a better life through innovative technology.

Xiaomi is currently the world’s fourth-largest smartphone brand, and has established the world’s leading consumer IoT platform, with 252 million smart devices connected to its platform, excluding smartphones and laptops. Xiaomi products are present in more than 90 markets around the world.

In July 2019, the company made the Fortune Global 500 list for the first time, ranking 468th among all, and 7th among internet companies. Xiaomi is the youngest company on the 2019 Fortune Global 500 list. In May 2020, the company made the Forbes Global 2000 List again and its ranking jumped to 384th.

For more information about Xiaomi, please visit our blog http://blog.mi.com/en/

Introducing Aruba ESP, the Industry’s First Cloud-Native Platform Built for the Intelligent Edge

New Platform Uses AI and Automation to Convert Data into Actionable Insights; Supports Business Continuity and Recovery to Address Rapidly Evolving Organizational Needs

Thailand – June 18, 2020 – Aruba, a Hewlett Packard Enterprise company (NYSE: HPE), today introduced Aruba ESP (Edge Services Platform), the industry’s first AI-powered, cloud-native platform that predicts and resolves problems at the network edge before they happen. Built on AIOps, Zero Trust network security, and a Unified Infrastructure for campus, data center, branch and remote worker locations, Aruba ESP delivers an automated, all-in-one platform that continuously analyzes data across domains, ensures SLAs, identifies anomalies and self-optimizes, while seeing and securing unknown devices on the network. Aruba ESP is designed to deliver a cloud experience at the edge and can be consumed either as a service in the cloud or on-premises, as a managed service delivered through Aruba partners, or via network as a service through HPE GreenLake. Tailored for varying economic requirements, customers may also procure it with flexible financing options via HPE Financial Services.

The technology market undergoes a major transition about once every decade. The last two decades were centered on delivering ubiquitous mobility followed by the move to cloud-based applications. We are now entering an era of data analytics driven by IoT, AI and automation supported by compute and modern networking to power a new breed of applications and workloads that work in concert with the cloud but that operate at the edge. As a result, enterprises are generating massive amounts of unstructured data at the edge which, if analyzed and acted upon properly, can be used to improve efficiencies, enhance experiences and enable new business outcomes. The key to turning these real-time insights into meaningful actions is to analyze and process this data at the point of origin – the edge – where people, devices and things connect to the digital world. This ability to generate actionable insights based on data is especially pertinent today during this unprecedented time in history where businesses, employees and, subsequently, the corporate network must adapt to rapidly evolving business and workplace needs.

Utilizing unstructured data at the edge requires a network that leverages AI via network telemetry to process that data at a rate and volume beyond what’s possible at human scale. It also requires an infrastructure with an AI-powered “sixth sense” that proactively identifies impending issues, recommends an accurate resolution and leverages automation to turn that into logical actions, all without manual intervention. Through continued analysis of network, user, and device insights, Aruba ESP turns information into knowledge, helping organizations accelerate transformation and maintain business continuity via a single, cloud-native platform that can reside either on-premises or in the cloud, and secures and unifies the infrastructure across the enterprise built on the following core principles:

• AIOps is the critical component of Aruba ESP, which uses AI and analytics to identify exact root causes with greater than 95% accuracy, auto-remediate network issues, proactively monitor the user experience, tune the network to prevent problems before they occur, and use peer benchmarking and prescriptive recommendations to continuously optimize and secure the network. In a live customer deployment, using AIOps resulted in a 15% increase in throughput capacity and reduced issue resolution time by nearly 90%, ultimately resulting in a vastly improved end user and IT experience.

• Unified Infrastructure consolidates all network operations for switching, Wi-Fi and SD-WAN across campus, data center, branch, and remote worker environments under Aruba Central, a cloud-native, single-pane-of-glass console that correlates cross-domain events to reduce issue resolution time and manual errors. In addition, Aruba’s unified infrastructure approach provides customers with a choice between controller services on-premises or in the cloud, delivering maximum flexibility at enterprise scale.

• Zero Trust Network Security combines built-in role-based access technology, Dynamic Segmentation and identity-based intrusion detection to authenticate, authorize and control every user and device connecting to the network, while still detecting, preventing, isolating and stopping attacks before they impact the business.

“The Aruba Edge Services Platform (ESP) is designed to help organizations by leveraging data telemetry from their networks to reduce complexities by automating more IT Operation tasks. This allows organizations to solve complex IT issues faster while securing the unified infrastructure across campus, branches and now micro branches in homes, leaving more time and resources to focus on innovation,” said Justin Chiah, Senior Director of South East Asia, Taiwan and Hong Kong/Macau, and Product Category, Asia Pacific and Japan of Aruba, a Hewlett Packard Enterprise company. “Aruba ESP is even more relevant in the wake of today’s varying economic environments, as we are seeing businesses step up their digital transformation gear and much of that change depends on having agile, scalable, cloud-native and secure network management tools.”

New Innovations Within Aruba ESP

Aruba ESP is the industry’s most scalable, full-stack, cloud-native platform for wired, wireless and SD-WAN environments that unifies multiple network elements for centralized management and control. Aruba ESP is based on open standards and enables integration with a variety of third-party solutions and services. Significant innovations introduced today include:

• Cloud-native management for any size enterprise – Aruba Central currently runs mission critical networks for over 65,000 customers and now with new ArubaOS services, it is the industry’s only controllerless, cloud-based platform to provide full-stack management and operations for wired, wireless and SD-WAN infrastructure of any size across campus, data center, branch, and remote worker locations to be consumed on-premises or in the cloud.

• Simplified daily operations with unified infrastructure – With access to a common data lake via Aruba ESP, the latest version of Aruba Central has been enhanced with simplified navigation, advanced search, and contextual views to present multiple dimensions of information through a single point-of-control, virtually eliminating the need for disparate tools to collect and correlate information across numerous domains and locations.

• Reduced resolution time with AI and automation – Aruba has a proven track record of bringing AI-powered innovations to market, including unique technologies like Aruba AirMatch. Based on modeling data from over one million network devices generating over 1.5B data points per day, Aruba’s new AI Insights reduces troubleshooting time by identifying hard-to-see network configuration issues and providing root-cause, prescriptive recommendations and automated remediation to continuously optimize network operations.

• AI-powered IT Efficiencies—Aruba Central now offers AI Search, a Natural Language Processing data discovery service that enables IT teams to eliminate “swivel chair” investigations by using simple, English language queries to extract comprehensive user and device information from Aruba ESP’s common data lake to present relevant information in context to quickly resolve a problem. For more complex issues, AI Assist uses event-driven automation to collect and post all the relevant data for both the internal help desk and Aruba TAC.

• Granular visibility across applications, devices and the network – Enhancements to Aruba Central enable user-centric analytics from User Experience Insight to identify client, application, and network performance issues faster.

• Extension of next-gen switching to distributed and mid-size enterprises – To help organizations accelerate Edge transformation, Aruba has expanded its CX Switch portfolio to include the Aruba CX 6200 Switch Series. This new series brings built-in analytics and automation capabilities to every network edge where user and device connectivity occurs, generating insights that can be applied to informing better business outcomes. The CX 6200 switch series further expands Aruba’s end-to-end CX switching portfolio, enabling customers to run a single operating model from the enterprise campus and branch access layer to the data center.

• Ongoing innovation with new Developer Hub – Aruba is introducing the Developer Hub, a comprehensive resource for developers that includes Aruba APIs and documentation to streamline the development of innovative, next-generation edge applications leveraging the open Aruba ESP platform.

“Our large-scale network spans multiple campuses and learning centers that run performance-stringent applications to keep our students, academics and researchers connected and productive,” said Ron Gardner, senior infrastructure engineer at James Cook University. “We have chosen to take a cloud-first approach to operating our infrastructure and the enhancements to Aruba Central and ArubaOS give us the visibility and insight to simplify operations while reducing our equipment footprint and securely manage our large campuses and distributed locations from the cloud, ultimately allowing us to proactively identify and address issues before they disrupt operations.”

To address the varying business and technical requirements of organizations looking to harness the power of the Intelligent Edge, Aruba has expanded its consumption and procurement options. These include network as a service through HPE GreenLake or customers can procure Aruba ESP with flexible financing options via HPE Financial Services. For example, customers can acquire the technology they need today and pay only 1% of the total contract value each month for the first eight months, deferring over 90% of the cost until 2021.

“With the size of our infrastructure and massive volume of data being generated at the edge, we needed a way to identify, fix and fine-tune the network automatically,” said Brandon Stratton, ES network administrator of Information Technology at the University of Houston. “Aruba’s expertise and approach with AI-based solutions, like NetInsight, represents a pragmatic path for us to analyze and then act on the insights we capture.”

Tune into ATM Digital beginning June 9th to see Aruba ESP in action, hear from industry luminaries and experts, and learn about the latest advancements in networking. Register here to attend.

Additional Resources

• Blog: Unlock the Power of Intelligent Edge with Aruba ESP
•  Video: Introducing Aruba ESP

About Aruba, a Hewlett Packard Enterprise company
Aruba, a Hewlett Packard Enterprise company, is a leading provider of secure, intelligent networks that enable customers to thrive and deliver amazing digital experiences in the mobile, IoT and cloud era. We are changing the rules of networking to make it simple for IT and organizations to bridge the physical and digital worlds at the Edge.

To learn more, visit Aruba at https://www.arubanetworks.com/sea/. For real-time news updates, follow Aruba on Twitter and Facebook, and for the latest technical discussions on mobility and Aruba products, visit the Airheads Community at http://community.arubanetworks.com.

History of the Porsche Targa

911 Carrera 2 3,9 Targa, model year 1990

Stuttgart. Porsche introduced the 911 Targa at the International Motor Show in Frankfurt in September 1965. The Targa is neither a cabriolet nor a coupé, neither a hard top nor a saloon, but something completely new: the first safety cabriolet in the world with a fixed safety or roll bar. Driving in the open air can now be enjoyed like never before in open-top cars in a variety of different ways thanks to a removable folding roof and a fold-down plastic rear window: completely closed, fully open or just with the centre roof section removed or the rear window folded down. The Targa concept was the starting signal for a totally different kind of Porsche driving experience and would be featured not only in all future 911 generations, but also subsequently in other cars, such as the 914 or the Carrera GT.

Named after the Targa Florio
With the new concept, Porsche was responding to increased safety requirements for open-top cars in the American market, countering voices calling for cabriolets to be completely banned in the United States. When deciding on a name for the model, consideration was given to race tracks where Porsche has been particularly successful, quickly leading to Targa Florio – the road race in Sicily where Porsche has enjoyed great motorsport success since the mid 1950s. For a short while, “911 Flori” was under discussion, until Head of Domestic Sales Harald Wagner stumbled on the answer by asking the question: “Why don‘t we just call it Targa?” The Italian term also means “number plate”, but legend has it that this only came to light when the copywriters were working on the sales brochure. In August 1965, Porsche applied for a patent for the Targa concept and from autumn 1966 the Targa supplemented the Coupé for the 911, 911 S and 912 with resounding success. From the late summer of 1967, the Targa models could also be optionally ordered with a fixed and heated rear window made of safety glass in place of the fold-down plastic rear window. A solution that became standard equipment just a year later and which remained a feature of the targa more or less unchanged until 1993.

A range of Targa options for the G series models
The Targa also remained a fixture of the product range for the second 911 generation, the G series models built from the late summer of 1973. For the first time, the 911 body was sustainably modified, now featuring new box-shaped bumpers with black bellows on the side, in line with new legislation in the United States. They were able to absorb impacts up to speeds of 8 km/h without any damage to the body. No changes were made to the technical Targa roof design. The visual appearance was modified, however, with the previous durable brushed stainless-steel Targa roll bar now also available in black. Even when the 911 SC cabrio was included in the range in January 1983, once again a Porsche that could be driven with a fully open top, the targa remained a fixed constant – even beyond the end of G series production in 1989.

Type 964 with 85 percent new parts, but the Targa remains a classic
As early as the autumn of 1988, Porsche introduced the first all-wheel drive 911 with the 911 Carrera 4 Type 964, making it the third generation of the iconic sports car from Zuffenhausen. Porsche retained the classic body shape of the 911, but under-neath about 85 percent of all the parts were new. Just a year later, a variant with classic rear-wheel drive was also available in the form of the 911 Carrera 2, but all three body types could also be ordered: Coupé, Cabriolet and Targa. The 911 Carrera 2 Targa and 911 Carrera 4 Targa, built until 1993, still had the classic Targa roll bar and the removable roof centre section. A total of 87,663 Targa models were built within the first three 911 generations.

Departure from the Targa roll bar – glass roof for the 911 Targa Type 993
The fourth generation of the 911 Type 993 was introduced in autumn 1993 in combination with a new body design, with the development of a new Targa concept from November 1995. For the first time in the 911, the front wings were wider and significantly flatter. The rear wings were also wider and ran in a straighter line to the rear. As well as extensive enhancements to the engine and chassis, generation 993 took the Targa idea in a completely different direction, without the Targa roll bar. The roof, made of tinted heat-insulating glass, running from the front window frame to the rear, was now encased within a longitudinal safety structure. Divided into electrical moving segments, it opened smoothly at the push of a button and retracted behind the rear window like a wide sliding roof. The main benefits of the new solution included reduced wind noise with a sun-drenched interior when the roof was closed. A continuing characteristic of this Targa: the tapered rear windows. The new Targa concept of the 993 series combined open-top driving pleasure with the 911 for the first time, without fundamentally changing the classic coupé roofline.

911 Targa 3,6 (285 PS) Interior (1997)

911 Targa Type 996 – a new rear lid for the Targa
Porsche presented the fifth 911 generation with the 911 Carrera Type 996 in 1997. It was completely redesigned and relied on water-cooled six-cylinder boxer engines for the first time. The Targa was available from December 2001 alongside the Coupé and Cabriolet. Just like its predecessor, the 911 Targa had an electrically operated glass roof, now with a surface area of more than 1.5 square metres. There had never before been that much glass surface area in a Porsche 911. The new Targa was also the first 911 to provide a rear window that could be folded up. This made it easy to access the rear storage compartment with up to 230 litres storage space to load suit- cases, bags or other luggage.

911 Targa 4S 3,8, model year 2006

911 Targa 4/4S Type 997 – lighter glass and two variants for the first time
September 2006 saw the introduction of the 911 Targa belonging to the now sixth 911 generation, type 997. In principle, it had the same Targa roof design as its predecessor, but with an additional practical rear lid. However, the use of special glass made it possible to reduce the weight by 1.9 kg, and two high-gloss polished aluminium strips along the edges of the roof were especially eye-catching. In addition, the 911 Targa was now only available in the two all-wheel drive variants – the 911 Targa 4 and the 911 Targa 4S.

911 Targa 2014

911 Targa Type 991 – the return of the legendary Targa roll bar
In September 2011, Porsche introduced the seventh and fully redesigned 911 generation. Following the coupé and cabriolet body variants, the 911 Targa was presented in January 2014, cast as a modern classic with its innovative Targa roof. The classic Targa idea was successfully combined with state-of-the-art roof convenience for the first time. Just like the legendary original Targa, the new model had the characteristic wide bar in place of B-pillars, a moving roof section above the front seats, and a wrap- around rear window without a C-pillar. But unlike the classic models, the roof was opened and closed in the new Targa at the push of a button. The fully automatic roof system spectacularly hid the hardtop element behind the rear seat system. The new 911 Targa represented a high-end, innovative new edition of the 1965 classic.

World premiere on 9:11 Magazine web TV channel
Porsche presents the new 911 Targa to the world public for the first time in its own Web TV format. At www.911-magazin.porsche.com/de, the head of the 911 and 718 series, Dr. Frank-Steffen Walliser, together with Porsche brand ambassadors Maria Sharapova and Jörg Bergmeister, provide information about the innovations of the new sports car. From today on, the second episode looks back into the history of Porsche, and the elements of which that have inspired the world premiere of the second of the new models: an exclusive, limited edition that combines modern vehicle technology with design elements from the past. In response to the global ban on events due to the coronavirus, the sports car manufacturer will thereby be presenting its new models to journalists and fans in virtual format for the first time.