randyparrs on Warpcast

quiz space and time del 51 al 82 en zelay 51. automatically reading the data on all major blockchains, decoding it, and writing it to relational database tables that users can access at no cost 52. to function essentially as a tamperproof ledger, but with the storage, compute, and SQL interface required for business operations 53. we built Space and Time as an HTAP data warehouse—one SQL database for both transactions and analytics… tamperproof and verifiable 54. the data warehouse cluster can respond to a query request without ever knowing the actual values of the encrypted data 55. built the first decentralized data warehouse, powering both analytics and applications and scale, we also provide a built-in API gateway operated by our decentralized network

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56. to build scalable, data-driven dapps, so that you don’t have to manage your own backend infrastructure or rely on a centralized solution 57. all you have to do is deploy your frontend and your smart contract 58. how the ecosystem of gas consumption changes over time, and helps devs place their gas usage into a broader industry context, whether DeFi, DEX, or gaming 59. translating natural language into well-made SQL requests that can be used to interact with Space and Time data troves 60. to build fully-automatic data processing, dashboards to visualize the data, and more custom scripts to process the data 61. data can be manipulated and analyzed without the need for specialized SQL expertise, significantly easing the technical burdens on businesses 62. is correct and hasn’t been manipulated since the time of ingestion, and the query result you’re getting is an accurate SQL computation of that data

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63. you catch an incident of tampering immediately after it occurs, you can also easily restore your data to its pre-tampered state 64. a tamperproof ledger, like a blockchain, but with the storage, compute, and SQL interface required for business operations 65. a SQL database with the security and tamperproof lineage of a blockchain 66. particularly relevant for industries where financial value is directly tied to data 67. all financial, economic, and business processes are not built on trust… but on verification 68. could help them customize that within the game to make it even more dynamic for the user 69. Bitget to provide proof of accounting and assure its users that all exchange operations are both valid and verifiable 70. verify the hash to recognize the valid Space and Time Proof of SQL proof 71. when you use Space and Time, all you pay for is compute 72. indexed blockchain data, the Space and Time Studio, the API gateway,

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and more are always included 73. depends on the amount of compute used by each query 74. that from the moment data enters the system, to the time a business decision is made, every interaction is auditable, secure, and—most importantly—verifiable 75. power its aggregations and algorithms with verifiable data and compute 76. transparently store analytical outputs – like risk scores and wallet addresses provided to smart contracts – and ensure that the data and compute powering our risk analysis comes with a ‘gold check’ of authenticity 77. slash the traditional 30-minute wait time for Structured Query Language (SQL) queries to sub-second speeds 78. one million rows in 1.2 seconds, and 100 million rows in approximately one minute

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79. receive back trustless SQL query results on-chain during a transaction without having to wait for 30-minute proof times 80. run low low-latency transactions and scalable analytics against the data, and publish the result to in-app user dashboards or its smart contract onchain 81. it can also be connected to any SQL database, centralized or decentralized, to provide verifiable query results to smart contracts 82. Zero-Knowledge

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