Author: Xiang｜W3.Hitchhiker

Related Reading

Author: Xiang｜W3.Hitchhiker

secondary title

Related Reading

In-depth analysis of IPFS: a new generation of Internet underlying protocol

1. Besides data storage, what else do you know about Filecoin?

2. At present, the storage capacity of Filecoin has reached 16 EB, and its volume and cost have already challenged the existing cloud storage market. The decentralized use of hard disk space provides lower prices than centralized providers such as Amazon and Alibaba. But nothing is perfect, there will be shortcomings to make him constantly perfected and polished.

3. FILECOIN, current disadvantages:

4. A lot of junk data is stored.

5. Proof of replication, proof of time and space, etc. have a large transaction volume and occupy most of the filecoin network transactions.

6. The search market is not perfect enough, and it takes a long time to extract and access the original data, which needs to be unpacked.

fil concerns

References

References

References

matemask-flask-snap

Snap for MateMask flask

It is reported that Snaps is a way to give Web3 developers the opportunity to use the MetaMask (the first wallet to provide users with scalability) product to try more things and create a new type of Dapp.

Any developer can create a Snap.

And when we install Snap, Snap will automatically integrate Filecoin into the wallet and come with a front end.

Reference link:

MetaMask Flask: A Snap for Filecoin Devs

Introduction | MetaMask Docs

A Filecoin snap jointly developed by Protocol Labs and Chainsafe. It is the first functional key management snap ever, and installing the Filecoin snap will support Filecoin to MetaMask.

Reference link:

snapdeal - simplified explanation

Snapdeal simplified explanation

Fast transactions allow storage providers to accept transactions from users and place that user's data into committed storage blocks. It's a bit of a mouthful, so think of it like this.

Instead of creating a new box every time someone wants to store something, we can replace peanuts with something useful! Since no one cares about peanuts, no one is upset about throwing them away. Storage providers put useful stuff on shelves without creating new boxes! Things also get better for citizens, since they don't have to wait for the storage provider to create a new box!

benefit

Here's a simplified view of how Snap deals work. Instead of the storage provider creating a whole new sector to store the customer's data, they can put the customer's data into a committed capacity sector. Data becomes faster, storage provider costs are lower, and more network storage capacity is utilized!

benefit

Fast transactions benefit all users in the Filecoin ecosystem. Storage providers are able to use their storage capacity more efficiently and speed up transaction processes. Faster transactions also get data from customers faster

Sector packing time

If you are an individual with expertise and interest in smart contract programming, large-scale data, data computing and data governance (data DAO), you can become a pioneer member of the early developers of FVM Foundry.

1. The Foundry's early developer program will run from April to June 2022. We expect early VM developers to attend monthly workshops with the FVM virtual machine team and participate in solution conception and design, early testing, and developer experience feedback.

2. fvm possibility

3. FVM possibility

4. Decentralized computing on data stored in Filecoin (running computations where data is stored instead of moving it)

5. Crowdfunded dataset preservation (e.g. everyone can fund storage of socially important data like crime statistics or environmental warming)

6. Smarter storage marketplaces (for example, dynamically price storage by time of day, replication level, or availability within a region)

7. Multi-generational storage and permanent custody (e.g. storing data spanning multiple generations)

8. Data DAOs and tokenized datasets (e.g. modeling the value of data as tokens and forming DAOs to coordinate and broker computations performed on them)

9. Locally stored NFTs (i.e. collocate the contents of the NFTs with the registry that tracks them)

10. Time-locked retrieval (e.g. unlock this dataset only when company public results are available)