Processing XML and Spreadsheet in Go 续 日 Gopher China Conference Beijing 2021 6/26 - 6/27 Self Introduction The author of the Excelize - Go language spreadsheet library. Familiar with Go language Complex XML 02 • Partial Load • Namespace & Entity • Ser/Deserialize Idempotence High Performance Processing 03 • XML Schema Definition • DOM or SAX OOXML Spreadsheets 04 • Excel XML Specification • work:addr="WORK"> High Performance Processing XML Components Data Model Tom

at the names for each image; these are the components that will ultimately comprise our Hyperledger Fabric network. You will also notice that you have two instances of the same image ID - one tagged as “x86_64-1 blockchain networks can reduce the time, cost, and risk associated with private information and processing while improving trust and visibility. You now know what blockchain is and why it’s useful. There and inaccessible to any network members not explicitly granted access to that channel. Efficient processing Hyperledger Fabric assigns network roles by node type. To provide concurrency and parallelism

at the names for each image; these are the components that will ultimately comprise our Hyperledger Fabric network. You will also notice that you have two instances of the same image ID - one tagged as “x86_64-1 blockchain networks can reduce the time, cost, and risk associated with private information and processing while improving trust and visibility. You now know what blockchain is and why it’s useful. There inaccessible to any network members not explicitly granted access to that channel. 2.2.3 Efficient processing Hyperledger Fabric assigns network roles by node type. To provide concurrency and parallelism

makes Fabric one of the better performing platforms avail- able today both in terms of transaction processing and transaction confirmation latency, and it enables privacy and confidentiality of transactions how to design the commercial paper processes and their related data structures. • Smart Contract Processing: Shows how a smart contract governing the decentralized business process of issuing, buying and describes a client application that would leverage the smart contract described in Smart Contract Processing. • Application design elements: Describes the details around contract namespaces, transaction

makes Fabric one of the better performing platforms avail- able today both in terms of transaction processing and transaction confirmation latency, and it enables privacy and confidentiality of transactions how to design the commercial paper processes and their related data structures. • Smart Contract Processing: Shows how a smart contract governing the decentralized business process of issuing, buying and describes a client application that would leverage the smart contract described in Smart Contract Processing. • Application design elements: Describes the details around contract namespaces, transaction

makes Fabric one of the better performing platforms avail- able today both in terms of transaction processing and transaction confirmation latency, and it enables privacy and confidentiality of transactions how to design the commercial paper processes and their related data structures. • Smart Contract Processing: Shows how a smart contract governing the decentralized business process of issuing, buying and describes a client application that would leverage the smart contract described in Smart Contract Processing. • Application design elements: Describes the details around contract namespaces, transaction

makes Fabric one of the better performing platforms available today both in terms of transaction processing and transaction confirmation latency, and it enables privacy and confidentiality of transactions how to design the commercial paper processes and their related data structures. Smart Contract Processing: Shows how a smart contract governing the decentralized business process of issuing, buying and describes a client application that would leverage the smart contract described in Smart Contract Processing. Application design elements: Describes the details around contract namespaces, transaction context

makes Fabric one of the better performing platforms available today both in terms of transaction processing and transaction confirmation latency, and it enables privacy and confidentiality of transactions how to design the commercial paper processes and their related data structures. Smart Contract Processing: Shows how a smart contract governing the decentralized business process of issuing, buying and describes a client application that would leverage the smart contract described in Smart Contract Processing. Application design elements: Describes the details around contract namespaces, transaction context

makes Fabric one of the better performing platforms available today both in terms of transaction processing and transaction confirmation latency, and it enables privacy and confidentiality of transactions how to design the commercial paper processes and their related data structures. Smart Contract Processing: Shows how a smart contract governing the decentralized business process of issuing, buying and describes a client application that would leverage the smart contract described in Smart Contract Processing. Application design elements: Describes the details around contract namespaces, transaction context

makes Fabric one of the better performing platforms avail- able today both in terms of transaction processing and transaction confirmation latency, and it enables privacy and confidentiality of transactions at the names for each image; these are the components that will ultimately comprise our Hyperledger Fabric network. You will also notice that you have two instances of the same image ID - one tagged as “amd64-1 “amd64-1.x.x” and one tagged as “latest”. Prior to 1.2.0, the image being downloaded was determined by uname -m and showed as “x86_64-1.x.x”. Note: On different architectures, the x86_64/amd64 would be