Bitcoin the first cryptocurrency introduced blockchain technology to the world. Bitcoin’s blockchain is a globally distributed ledger which records transactions and is secured cryptographically via a robust consensus mechanism. But digital currency like Bitcoin, which has decentralized all aspects of money, is only one example of a DApp. Similarly, other DApps built on blockchain technology have opened up the possibility of a newer and more exciting world.
A paradigm shift in the way we view software models is approaching. When Bitcoin, the first cryptocurrency, made us reassess our definition of Store of Value (SoV), it also revealed a sneak peek of the future: a world running on decentralized applications (Dapps). These distributed, resilient, transparent and incentivized applications will prove themselves to the world by remapping the technological landscape.
Probability, and distributed computing have joined forces to solve two of the biggest roadblocks in the mass adoption of blockchain network efficiency and difficulty in coding. To tackle these problems, we have designed the first second-layer system able to run a real operating system on top of blockchain. Cartesi brings all the tools and capabilities available in modern operating systems to the decentralized web. It is a real and fully-fledged Linux OS that skyrockets the capabilities of decentralized applications without compromising on the security guarantees of blockchain.
Cartesi brings a real OS to blockchains. Cartesi enables off-chain computations running on a deterministic VM architecture supporting a Linux operating system. This allows for sophisticated DApp logic running intensive computation. Cartesi mitigates the entry barrier to blockchain development. Mainstream developers can easily develop DApps with the tools, libraries, and services they are already familiar with. Cartesi makes DApps portable across multiple blockchains.
Blockchain is full of unrealized potential. We’ve all heard the promises: a fully decentralized web, the return of autonomy and privacy to users, a trustless framework for the Internet of Things. But the reality has been dramatically different. A lack of technical infrastructure has limited the power of DApps and kept us on a slow and frustrating road to adoption.
DApps that are fully deployed on blockchains are extremely inefficient and limited when compared even to the everyday apps we use on devices small enough to fit into our pockets. Efficiency only comes at the cost of centralization. To make things worse, blockchains offer poor development tools, making coding very hard if not totally impossible. Unless we fix this, the decentralized web will remain a pipe dream. Until we have the proper technology in place, such as Cartesi, the decentralized web will remain nothing but a fantasy.
In the upcoming weeks and months, we’re going to be greatly increasing our output on various endeavors, developments, our testnet and upcoming DApps that will be launched and developed within Cartesi’s ecosystem.
With our new marketing team in place, we expect to grow our community exponentially. One of our most important focuses is onboarding developers and creating new strategic relations with the real-world and businesses in the blockchain ecosystem.
Cartesi Ecosystem
- Real world computations meet the blockchain.
Intensive computations require a realistic platform. Cartesi enables external computations to run on a RISC-V processor under a deterministic Linux operating system. Developers can use all the tools, libraries, and services they are already familiar with.
- Portable across multiple blockchains.
Smart contracts running on different blockchains can formulate external computations in the exact same way in the Cartesi Node. This isolates complex computations from the details of specific blockchains, making them portable and providing security, immutability, and a payment system.
- Guaranteed consensus.
External computations can be verified externally by all involved parties. Disputes are settled automatically by Cartesi. This requires negligible computation inside the blockchain, regardless of the size of the external computation.
Cartesi Core is accessible as open-source on Github. In the following not many weeks we will be discharging our first DApp a competition on a pinnacle protection game. This game grandstands a completely decentralized game that was created utilizing regular programming stacks on Linux, and furthermore requiring billions of microchip guidelines and along these lines difficult to run on-chain. The Cartesi group has now discharged and publicly released Cartesi Core as indicated in our techpaper, aside from the DAG highlight. With this achievement, we have accomplished Verifiability, implying that enormous calculations can be settled for accuracy on the blockchain at immaterial expense, in a protected and decentralized way.
Cartesi maintains its vision of making the advancement of DApps as close as conceivable to their brought together partners. We accept this wouldn't be conceivable without a solid network and center vision to drive appropriation. These major standards will drive Cartesi into building up a Layer-2 arrangement that is effectively comprehended by our designers and clients, while being open enough for the general population.
Going ahead, we will be chipping away at making Cartesi accessible and simple for everybody, even non-blockchain engineers :
- The main example application a completely decentralized pinnacle guard competition
- SDK and Tutorials. Cartesi will make it simple for engineers to make and convey incredible DApps.
- CTSI A token intended to give more prominent security and furnish DApp clients with a relatable Web2.0-like understanding
- A tale staking component in which members know precisely how much return they will get for their staked tokens. Stay tuned for more data.
- An ASIC-safe mining programming that will bootstrap the Cartesi Network. It will compensate early adopters with CTSI prizes for supporting the system
- An arrangement to incorporate Cartesi with the most significant open blockchains, making Cartesi DApps compact over the ideal agreement layers
Website : https://cartesi.io/
Whitepaper : https://cartesi.io/cartesi_whitepaper.pdf
Facebook : https://www.facebook.com/cartesiproject
Twitter : https://twitter.com/cartesiproject
Telegram : https://t.me/CartesiProject
Medium : https://www.medium.com/cartesi
Reddit : https://www.reddit.com/r/cartesi
Ann Thread : https://bitcointalk.org/index.php?topic=5211981
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