platform to support smart contracts authored in general-purpose programming languages such as Java, Go and Node.js, rather than constrained domain-specific languages (DSL). This means that most enterprises to use the prior chaincode lifecycle with Fabric v2.x. The new chaincode lifecycle will become effective only when the channel application capability is updated to v2.0. See the Fabric chaincode lifecycle Fabric. Once comfortable — or if you’re already familiar with blockchain and Hyperledger Fabric — go to Getting Started and from there explore the demos, technical specifications, APIs, etc. What is

platform to support smart contracts authored in general-purpose programming languages such as Java, Go and Node.js, rather than constrained domain-specific languages (DSL). This means that most enterprises to use the prior chaincode lifecycle with Fabric v2.x. The new chaincode lifecycle will become effective only when the channel application capability is updated to v2.0. See the Fabric chaincode lifecycle Fabric. Once comfortable — or if you’re already familiar with blockchain and Hyperledger Fabric — go to Getting Started and from there explore the demos, technical specifications, APIs, etc. What is

platform to support smart contracts authored in general-purpose programming languages such as Java, Go and Node.js, rather than constrained domain-specific languages (DSL). This means that most enterprises to use the prior chaincode lifecycle with Fabric v2.0. The new chaincode lifecycle will become effective only when the channel application capability is updated to v2.0. See the Fabric chaincode lifecycle Fabric. Once comfortable — or if you’re already familiar with blockchain and Hyperledger Fabric — go to Getting Started and from there explore the demos, technical specifications, APIs, etc. What is

platform to support smart contracts authored in general-purpose programming languages such as Java, Go and Node.js, rather than constrained domain-specific languages (DSL). This means that most enterprises to use the prior chaincode lifecycle with Fabric v2.0. The new chaincode lifecycle will become effective only when the channel application capability is updated to v2.0. See the Fabric chaincode lifecycle Fabric. Once comfortable — or if you’re already familiar with blockchain and Hyperledger Fabric — go to Getting Started and from there explore the demos, technical specifications, APIs, etc. What is

platform to support smart contracts authored in general-purpose programming languages such as Java, Go and Node.js, rather than constrained domain-specific languages (DSL). This means that most enterprises to use the prior chaincode lifecycle with Fabric v2.0. The new chaincode lifecycle will become effective only when the channel application capability is updated to v2.0. See the Fabric chaincode lifecycle Fabric. Once comfortable — or if you’re already familiar with blockchain and Hyperledger Fabric — go to Getting Started and from there explore the demos, technical specifications, APIs, etc. What is

platform to support smart contracts authored in general-purpose programming languages such as Java, Go and Node.js, rather than constrained domain-specific languages (DSL). This means that most enterprises to use the prior chaincode lifecycle with Fabric v2.x. The new chaincode lifecycle will become effective only when the channel application capability is updated to v2.0. See the Fabric chaincode lifecycle Fabric. Once comfortable — or if you’re already familiar with blockchain and Hyperledger Fabric — go to Getting Started and from there explore the demos, technical specifications, APIs, etc. 4.1.1 What

platform to support smart contracts authored in general-purpose programming languages such as Java, Go and Node.js, rather than constrained domain-specific languages (DSL). This means that most enterprises to use the prior chaincode lifecycle with Fabric v2.0. The new chaincode lifecycle will become effective only when the channel application capability is updated to v2.0. See the Chaincode for Operators Fabric. Once comfortable — or if you’re already familiar with blockchain and Hyperledger Fabric — go to Getting Started and from there explore the demos, technical specifications, APIs, etc. What is

platform to support smart contracts authored in general-purpose programming languages such as Java, Go and Node.js, rather than constrained domain-specific languages (DSL). This means that most enterprises use of standard programming languages. In the 1.1.0 release, smart contracts can be written in either Go or Node.js, while there are plans to support other popular languages including Java in subsequent releases Fabric. Once comfortable — or if you’re already familiar with blockchain and Hyperledger Fabric — go to Getting Started and from there explore the demos, technical specifications, APIs, etc. What is

platform to support smart contracts authored in general-purpose programming languages such as Java, Go and Node.js, rather than constrained domain-specific languages (DSL). This means that most enterprises use of standard programming languages. In the 1.1.0 release, smart contracts can be written in either Go or Node.js, while there are plans to support other popular languages including Java in subsequent releases Fabric. Once comfortable — or if you’re already familiar with blockchain and Hyperledger Fabric — go to Getting Started and from there explore the demos, technical specifications, APIs, etc. What is

platform to support smart contracts authored in general-purpose programming languages such as Java, Go and Node.js, rather than constrained domain-specific languages (DSL). This means that most enterprises use of standard programming languages. In the 1.1.0 release, smart contracts can be written in either Go or Node.js, while there are plans to support other popular languages including Java in subsequent releases Fabric. Once comfortable — or if you’re already familiar with blockchain and Hyperledger Fabric — go to Getting Started and from there explore the demos, technical specifications, APIs, etc. What is