3sat App Download

3sat (.mw-parser-output .IPA-label-small{font-size:85%}.mw-parser-output .references .IPA-label-small,.mw-parser-output .infobox .IPA-label-small,.mw-parser-output .navbox .IPA-label-small{font-size:100%}German pronunciation: [dazat]) is a free-to-air German-language public service television channel. It is a generalist channel with a cultural focus[1] and is jointly operated by public broadcasters from Germany (ZDF, ARD), Austria (ORF) and Switzerland (SRG SSR). The coordinating broadcaster is ZDF, at whose Mainz facility the broadcasting centre with studios for in-house productions is located.

3sat was established to broadcast cultural programmes, originally by satellite. The network was founded as a cooperative network by Germany's ZDF, Austria's ORF and Switzerland's SRG SSR (formerly SRG SSR ide suisse). 3sat began broadcasting on 1 December 1984. ZDF leads the cooperative, though decisions are reached through consensus of the cooperative's partners.

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In 1990, DFF, television broadcaster of the German Democratic Republic became a cooperative member of 3sat, and a name change to 4sat was considered. Eventually it was decided to keep the original 3sat name. DFF's membership of 3sat was dissolved on 31 December 1991, as DFF itself ceased to exist, in accordance with Germany's Unification Treaty.

On 1 December 1993, ARD joined 3sat as a cooperative member. This followed ARD's shutdown of its own satellite channel, Eins Plus. 3sat is available on the European Astra satellites at 19.2 east, on cable television, and in Austria and Germany on digital terrestrial television.

In 2003, 3sat was available in 40 million households in Germany, Austria and Switzerland, and 85.5 million households across Europe. Since June 2003 3sat has been using a new on-air look and logo. The logo has a red rectangle surrounding a number three.

As a result of ZDF's spending for the then-new ZDFkultur, 2011 saw the end of many long-term 3sat broadcasts such as 3satbrse, Foyer, the computer and internet magazine neues, the animal show Arche Noah, the legal magazine Recht brisant, Vivo and others.

On 1 April 2017, the Direktion Europische Satellitenprogramme, which was responsible for 3sat and Arte programs, was dissolved. It was replaced by joint editorial teams with the other ZDF channels.[2]

3sat is a German-language television channel jointly run by the public broadcasters in Germany (ARD and ZDF), Switzerland (SRG SSR, represented by SRF) and Austria (ORF). It airs cultural programmes, much like Arte, the Franco-German TV channel.

A Virtual Private Network (VPN) routes your internet via a remote server in a location of your choosing. By connecting to a VPN server in Germany, you can get a German IP address, which instantly lets you watch 3sat outside of Germany. As an additional bonus, VPNs also encrypt your internet traffic and keep it safe from snoopers and prying eyes.

NordVPN is offering a fully-featured risk-free 30 day trial if you sign up at this page. You can use the VPN rated #1 for 3sat with no restrictions for a month - more than enough time for you to decide if you want it for the long haul.

Speeds are fast enough for uninterrupted streaming thanks to its NordLynx protocol, and it works to securely access many popular international services, including 3sat, Netflix, and HBO. Customer support is available 24/7 via live chat and email to help you if you have issues.

BEST VPN FOR 3SAT:NordVPN is our #1 recommendation for watching 3sat outside Germany. Also works with Netflix. Very user-friendly VPN with excellent apps and browser extensions. 24/7 support and a strict no-logs policy to protect your privacy. Has a 30-day money-back guarantee.

ExpressVPN has servers in Frankfurt and Nuremberg, making it easy for you to access 3sat from abroad. This is one of the best VPNs for watching 3sat outside Germany, thanks to its high-speed servers, lightway protocol, and reliable connections.

This VPN is known for its high-speed connections, which are ideal for streaming and torrenting. Aside from unblocking 3sat overseas, CyberGhost also works with Netflix US, Hulu, Prime Video, and more. Plus, you can use this VPN to connect up to 7 devices simultaneously.

HIGH SPEED SERVERS:CyberGhost is fast for streaming 3sat. Also works with Netflix US. 1600+ servers in Germany and 9,000+ worldwide. Connect up to 7 devices at once. 24/7 live chat support and a strict no-logs policy. 45-day money-back guarantee.

UNLIMITED CONNECTIONS:IPVanish has dozens of fast servers in Germany for watching 3sat overseas. Also works with Netflix US. Includes live chat support and allows unlimited connections. Includes a zero-logs policy. Has a 30-day money-back guarantee.

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3sat is known for its wide range of cultural TV programs. Among other things, its content consists of documentaries, live music concerts, and independent films. Much of this is available to stream for free, as long as you have an IP address in Germany. Below is some of what you can watch on 3sat with a VPN:

One way of solving 3sat instances on a quantum computer is to transform the 3sat instances into instances of Quadratic Unconstrained Binary Optimizations (QUBOs), which can be used as an input for the QAOA algorithm on quantum gate systems or as an input for quantum annealers. This mapping is performed by a 3sat-to-QUBO transformation. Recently, it has been shown that the choice of the 3sat-to-QUBO transformation can significantly impact the solution quality of quantum annealing. It has been shown that the solution quality can vary up to an order of magnitude difference in the number of correct solutions received, depending solely on the 3sat-to-QUBO transformation. An open question is: what causes these differences in the solution quality when solving 3sat-instances with different 3sat-to-QUBO transformations? To be able to conduct meaningful studies that assess the reasons for the differences in the performance, a larger number of different 3sat-to-QUBO transformations would be needed. However, currently, there are only a few known 3sat-to-QUBO transformations, and all of them were created manually by experts, who used time and clever reasoning to create these transformations. In this paper, we will solve this problem by proposing an algorithmic method that is able to create thousands of new and different 3sat-to-QUBO transformations, and thus enables researchers to systematically study the reasons for the significant difference in the performance of different 3sat-to-QUBO transformations. Our algorithmic method is an exhaustive search procedure that exploits properties of (Formula presented.) dimensional pattern QUBOs, a concept which has been used implicitly in the creation of 3sat-to-QUBO transformations before, but was never described explicitly. We will thus also formally and explicitly introduce the concept of pattern QUBOs in this paper.

N2 - One way of solving 3sat instances on a quantum computer is to transform the 3sat instances into instances of Quadratic Unconstrained Binary Optimizations (QUBOs), which can be used as an input for the QAOA algorithm on quantum gate systems or as an input for quantum annealers. This mapping is performed by a 3sat-to-QUBO transformation. Recently, it has been shown that the choice of the 3sat-to-QUBO transformation can significantly impact the solution quality of quantum annealing. It has been shown that the solution quality can vary up to an order of magnitude difference in the number of correct solutions received, depending solely on the 3sat-to-QUBO transformation. An open question is: what causes these differences in the solution quality when solving 3sat-instances with different 3sat-to-QUBO transformations? To be able to conduct meaningful studies that assess the reasons for the differences in the performance, a larger number of different 3sat-to-QUBO transformations would be needed. However, currently, there are only a few known 3sat-to-QUBO transformations, and all of them were created manually by experts, who used time and clever reasoning to create these transformations. In this paper, we will solve this problem by proposing an algorithmic method that is able to create thousands of new and different 3sat-to-QUBO transformations, and thus enables researchers to systematically study the reasons for the significant difference in the performance of different 3sat-to-QUBO transformations. Our algorithmic method is an exhaustive search procedure that exploits properties of (Formula presented.) dimensional pattern QUBOs, a concept which has been used implicitly in the creation of 3sat-to-QUBO transformations before, but was never described explicitly. We will thus also formally and explicitly introduce the concept of pattern QUBOs in this paper.

AB - One way of solving 3sat instances on a quantum computer is to transform the 3sat instances into instances of Quadratic Unconstrained Binary Optimizations (QUBOs), which can be used as an input for the QAOA algorithm on quantum gate systems or as an input for quantum annealers. This mapping is performed by a 3sat-to-QUBO transformation. Recently, it has been shown that the choice of the 3sat-to-QUBO transformation can significantly impact the solution quality of quantum annealing. It has been shown that the solution quality can vary up to an order of magnitude difference in the number of correct solutions received, depending solely on the 3sat-to-QUBO transformation. An open question is: what causes these differences in the solution quality when solving 3sat-instances with different 3sat-to-QUBO transformations? To be able to conduct meaningful studies that assess the reasons for the differences in the performance, a larger number of different 3sat-to-QUBO transformations would be needed. However, currently, there are only a few known 3sat-to-QUBO transformations, and all of them were created manually by experts, who used time and clever reasoning to create these transformations. In this paper, we will solve this problem by proposing an algorithmic method that is able to create thousands of new and different 3sat-to-QUBO transformations, and thus enables researchers to systematically study the reasons for the significant difference in the performance of different 3sat-to-QUBO transformations. Our algorithmic method is an exhaustive search procedure that exploits properties of (Formula presented.) dimensional pattern QUBOs, a concept which has been used implicitly in the creation of 3sat-to-QUBO transformations before, but was never described explicitly. We will thus also formally and explicitly introduce the concept of pattern QUBOs in this paper. 006ab0faaa