GOCON Autumn (Story of our own Monitoring Agent in golang)Huy Do
This document discusses building a monitoring agent in Go and describes key components and design considerations. It proposes:
1. A modular agent architecture with pluggable inputs, codecs, and outputs to collect host metrics.
2. A push-based collection model where inputs directly retrieve metrics to reduce middleware impact.
3. A buffer to prevent data loss during output failures by maintaining write offsets.
4. Exposing agent state via HTTP for monitoring health, performance, and preventing issues like resend storms.
The agent is intended to be scalable, reliable, and manageable for deploying monitoring at scale. Go is chosen for its portability and quick prototyping abilities.
GOCON Autumn (Story of our own Monitoring Agent in golang)Huy Do
This document discusses building a monitoring agent in Go and describes key components and design considerations. It proposes:
1. A modular agent architecture with pluggable inputs, codecs, and outputs to collect host metrics.
2. A push-based collection model where inputs directly retrieve metrics to reduce middleware impact.
3. A buffer to prevent data loss during output failures by maintaining write offsets.
4. Exposing agent state via HTTP for monitoring health, performance, and preventing issues like resend storms.
The agent is intended to be scalable, reliable, and manageable for deploying monitoring at scale. Go is chosen for its portability and quick prototyping abilities.
Payment channels allow for off-chain transactions between two parties to enable trustless, high-volume, low-cost micropayments on the Bitcoin blockchain. The key aspects are: (1) a multi-signature wallet is set up and funded, (2) off-chain balance updates occur via time-locked transactions, (3) the final on-chain transaction closes the channel by broadcasting the final signed state. Hashed Timelock Contracts (HTLCs) extend this to enable payments across multiple channels by using hash preimages and timelocks to guarantee delivery or refunds. Bidirectional channels allow payments in both directions through commitment transactions signed by both parties.
The document discusses the Lightning Network, which uses payment channels and bidirectional channels to enable scalable, free, and immediate bitcoin payments. It aims to address Bitcoin's limitations of high fees and slow transaction times by facilitating instant micropayments through a network of payment channels without blockchain transactions. Key concepts covered include hashed timelock contracts, commitment transactions, revocable sequence maturity contracts, and routing payments across channels. Several open challenges for Lightning Network are also summarized such as channel monitoring, routing topology centralization, and adapting existing wallets.
Rpp revisi 2017 sejarah peminatan kelas 11 smaDiva Pendidikan
Rencana pelaksanaan pembelajaran ini membahas tentang kerajaan-kerajaan maritim Indonesia pada masa Hindu dan Buddha dalam sistem pemerintahan, sosial, ekonomi, dan kebudayaan serta pengaruhnya di masa kini. Materi akan disampaikan melalui pendekatan saintifik dan model pembelajaran penemuan untuk membantu siswa memahami dan menganalisis kerajaan-kerajaan tersebut beserta pengaruhnya. Tujuannya adalah agar sis
This is a slide for Fully Convolutional Refined Auto-Encoding Generative Adversarial Networks for 3D Multi Object Scenes which is my work at Stanford AI Lab as a visiting scholar.
Special thanks to Christopher Choy and Prof. Silvio Savarese.
Github:
https://github.com/yunishi3/3D-FCR-alphaGAN
Produce by TAISUKE MINO, ICOVO's Engineer
4/23/2018
#1 Hack for Vitalik`s "DAICO"
https://www.meetup.com/ja-JP/ethereum_hack_tokyo/events/hwvgppyxgbfc/