8s29a i3yyh 96tt9 sr9rz 4s6dy iedkk di64h 7a8ry fnn38 nfkkz 9bb5e 2dk4r 363yz 9r286 fdhz6 f9ayk 2tn4k yrr8f 7zbzf 2yzis stz4d Driving ranges near Tempe AZ |

Driving ranges near Tempe AZ

2022.01.21 22:52 Chemical-Matter9099 Driving ranges near Tempe AZ

I’m sure this has been posted a million times before but I’m new here lol I recently moved to az in the Tempe, Scottsdale area. I’m not necessarily looking for just for courses to play( I know they’re all over) but just a good driving range close by or something.
submitted by Chemical-Matter9099 to golf [link] [comments]

2022.01.21 22:52 No_Knowledge7186 Self-Report Covid Positive Daily Check

On the daily check, you’re required to self report a positive covid test if it’s taken place in the past 90 days. I tested positive within this time frame from an over the counter rapid test. Is it a big issue if I only have a picture of the positive test strip? There isn’t much info on the self reporting form and I don’t know how much they ask for regarding the results, especially since I have the bare minimum in terms of proof.
submitted by No_Knowledge7186 to Cornell [link] [comments]

2022.01.21 22:52 KillinYa ADS bug?

Anyone else getting a bug when you ADS the game just undoes it by itself? Any potential fixes? making it hard to play. might just need new mouse aha
submitted by KillinYa to EscapefromTarkov [link] [comments]

2022.01.21 22:52 SammNic_ When running a command with a count ([c=1) who does it execute the command at?

So lets say I wanted to execute a command an 1 single entity. So I do execute @e[c=1], but of course there are multiple entities. Does the command execute on the nearest entity or just a random one?
submitted by SammNic_ to MinecraftCommands [link] [comments]

2022.01.21 22:52 No-Job7339 LIKE BIRD_UP, ONLY ON OPENSEA.

LIKE BIRD_UP, ONLY ON OPENSEA. submitted by No-Job7339 to FantomNFT [link] [comments]

2022.01.21 22:52 Alexm920 [BDSP] Finally got the blink RNG working, and can start playing the game!

[BDSP] Finally got the blink RNG working, and can start playing the game! submitted by Alexm920 to pokemonrng [link] [comments]

2022.01.21 22:52 feelingprettyaspy Do I skip the first 15mins or so of work for friends funeral? In a dilemma

Ok so basically lost a family friend last week and I told my boss this the day he passed and she said I can’t have work off as a funeral as he’s not family and my only option is to swap and only one person was able to swap with me (we don’t have enough staff). This person has now had to isolate due to household contact having covid. She said if she didn’t she would happily swap with me. Work still won’t give me her shift cause apparently it’s easier to cover hers than mine. Can I add it’s a 4 hour shift not a huge long one. Im due to work at 1pm, funeral is at 12pm.
Should I just go and be late to work if it runs for full hour? I don’t want to deal with getting into shit but at same time I want to say goodbye to my friend. I’ve been up all night stewing about this. I don’t wanna be a dick but at same time it’s a funeral? Any advice would be amazing thanks in advance just don’t know what best
submitted by feelingprettyaspy to WorkAdvice [link] [comments]

2022.01.21 22:52 minitaba Divingspot near Kiel, SH

Divingspot near Kiel, SH submitted by minitaba to pics [link] [comments]

2022.01.21 22:52 JumpyConstruction878 Trovo

Trovo submitted by JumpyConstruction878 to FatimaSegoviafanpage [link] [comments]

2022.01.21 22:52 B3EJ00 Lore

Lore submitted by B3EJ00 to shitposting [link] [comments]

2022.01.21 22:52 KingfisherCatch Love this Leafeon VMAX

Love this Leafeon VMAX submitted by KingfisherCatch to PokemonTCG [link] [comments]

2022.01.21 22:52 SuperMetroidMan 24 [Chat/Anything] — lover of pop punk, coffee, and books — let’s chat?

Hey everyone! I'd love to find some people to bond / chat with on just about anything. Here's a bit about me:
Reading/writing is my main hobby. Some of my favorites are After Dark, Lord of the Rings, and Mistborn just to name a random few! I’ll read just about anything though, lol. My goal is to be a full-time author, and maybe write a horror movie at some point. I'm also addicted to horror, and love basically everything about horror movies.
I currently have a job that I *love* working in a great field, and I graduated uni last year! I'll talk your ear off about it, if you want haha.
Tattoos are one of my favorite things, and just got my newest one!
My favorite bands are Modern Baseball, Slaughter Beach Dog, The Wonder Years, Bastille, The Front Bottoms, etc! I also love listening to music with others, and find bonding with music so special. I’m always looking for new stuff, so please send a rec!
I enjoy video games too. I mainly play PC, but also on Switch. Recently, I just started FFXIV and I'm *loving* it. I also play League (sadly, and an ADC main), some Warzone, Dead by Daylight, and really anything co-op.
I work out quite a bit, and lost 90 pounds a few years ago. Finally, I absolutely adore coffee, and drink a stupid amount daily lol. I’d love to hear from some of you!
Please, ofc be 18+ to message. I also don’t mind swapping pics, or sending a selfie first if you ask :) I’m also a very open book, so feel free to ask me anything
submitted by SuperMetroidMan to MeetPeople [link] [comments]

2022.01.21 22:52 _pidgy Build mode is broken? (Sims 4)

So I was finally about to upgrade my legacy challenge house and first went to the gallery (I'm lazy when it comes to building) however when I found a lot and placed it, it just wouldn't place at all. It would go back to the build mode screen and only give me the cancel option so I would. Then I tried to bulldoze my lot and the game just completely broke. It was stuck on a loading screen but would still let me move around in the background. I restarted my computer and tried again. The same thing except I couldn't alt-tab because I hadn't opened any other tabs. Once again had to restart my PC. The thing is my PC is very new and a pretty high spec gaming PC so I doubt it's anything to do with that. Saw on the sims 4 Reddit that someone else had the same issue and repairing the game did nothing for them but there were no given solutions there and it seems a bit dead so I'm coming straight here. I'm a bit frustrated rightfully so and just wanted to have a nice building session. The only mods I have are wonderful whims and MCCC, both fully updated.
submitted by _pidgy to thesims [link] [comments]

2022.01.21 22:52 Public_Difference_35 Softly body greu braids 🥰🥰🥰🥰🥰

Softly body greu braids 🥰🥰🥰🥰🥰 submitted by Public_Difference_35 to anime_feat_futanari [link] [comments]

2022.01.21 22:52 bigdave41 This meme format is really moreish...

This meme format is really moreish... submitted by bigdave41 to MitchellAndWebb [link] [comments]

2022.01.21 22:52 CalmerThanYouArgh [WTS] Roja Amber Aoud Absolue Precieux - 30 mL (bottle)

$535 - CONUS Only
Tester with cap.
PayPal / Venmo / Zelle
submitted by CalmerThanYouArgh to fragranceswap [link] [comments]

2022.01.21 22:52 jhelmste Please FUD me on Cosmos. I'm a big fan right now and need some FUD to chew on.

What is Cosmos?


Strictly speaking, Cosmos is a decentralized network of independent parallel blockchains, each powered by BFT consensus algorithms like Tendermint consensus.

In other words, Cosmos is an ecosystem of blockchains that can scale and interoperate with each other. Before Cosmos, blockchains were siloed and unable to communicate with each other. They were hard to build and could only handle a small amount of transactions per second. Cosmos solves these problems with a new technical vision. In order to understand this vision we need to go back to the fundamentals of blockchain technology.

What is a Blockchain?

A blockchain can be described as a digital ledger maintained by a set of validators that remains correct even if some of the validators (less than a third) are malicious. Each party stores a copy of the ledger on their computer and updates it according to the rules defined by the protocol when they receive blocks of transactions. The goal of blockchain technology is to make sure the ledger is correctly replicated, meaning that each honest party sees the same version of the ledger at any given moment.

The main benefit of blockchain technology is the ability for parties to share a ledger without having to rely on a central authority. Blockchains are decentralized. The first and most famous application of blockchain technology today is Bitcoin, a decentralized currency.

Now that we have a better understanding of what a blockchain is from a high-level perspective, let us look at the definition of blockchain with a more technical angle. A blockchain is a deterministic state machine replicated on full-nodes that retains consensus safety as long as less than a third of its maintainers are Byzantine. Let’s break this down.

A state machine is just a fancy word for a program that holds a state and modifies it when it receives inputs. There is a state, which can represent different things depending on the application (e.g. token balances for a cryptocurrency), and transactions, that modify the state (e.g. by subtracting balances from one account and adding them to another).
Deterministic means that if you replay the same transactions from the same genesis state, you will always end up with the same resultant state.
Consensus safety refers to the fact that every honest node on which the state machine is replicated should see the same state at the same time. When nodes receive blocks of transactions, they verify that it is valid, meaning that each transaction is valid and that the block itself was validated by more than two thirds of the maintainers, called validators. Safety will be guaranteed as long as less than a third of validators are Byzantine, i.e. malicious.
Layers of a blockchain: application, consensus, and networking
From an architecture standpoint, blockchains can be divided into three conceptual layers:

Application: Responsible for updating the state given a set of transactions, i.e. processing transactions.
Networking: Responsible for the propagation of transactions and consensus-related messages.
Consensus: Enables nodes to agree on the current state of the system.
The state machine is the same as the application layer. It defines the state of the application and the state-transition functions. The other layers are responsible for replicating the state machine on all the nodes that connect to the network.

How does Cosmos fit in the broader blockchain ecosystem?
Bitcoin is monolithic
To understand how Cosmos fits in the blockchain ecosystem, we need to go back to the beginning of the blockchain story. The first blockchain was Bitcoin, a peer-to-peer digital currency created in 2008 that used a novel consensus mechanism known as Proof-of-Work (PoW). It was the first decentralized application on a blockchain. Soon, people started to realize the potential of decentralized applications and the desire to build new ones emerged in the community.

At the time, there were two options to develop decentralized applications: either fork the bitcoin codebase or build on top of it. However, the bitcoin codebase was very monolithic; all three layers—networking, consensus and application — were mixed together. Additionally, the Bitcoin scripting language was limited and not user-friendly. There was a need for better tools.

Ethereum has smart contracts
In 2014, Ethereum came in with a new proposition for building decentralized applications. There would be a single blockchain where people would be able to deploy any kind of program. Ethereum achieved this by turning the Application layer into a virtual machine called the Ethereum Virtual Machine (EVM). This virtual machine was able to process programs called smart contracts that any developer could deploy to the Ethereum blockchain in a permissionless fashion. This new approach allowed thousands of developers to start building decentralized applications (dApps). However, limitations to this approach soon became apparent and still persist to this day.

Limitation #1: Scalability
The first limitation is scaling - decentralized applications built on top of Ethereum are inhibited by a shared rate of 15 transactions per second. This is due to the fact that Ethereum still uses Proof-of-Work and that Ethereum dApps compete for the limited resources of a single blockchain.

Limitation #2: Usability
The second limitation is the relatively low flexibility granted to developers. Because the EVM is a sandbox that needs to accommodate all use cases, it optimizes for the average use case. This means that developers have to make compromises on the design and efficiency of their application (for example, requiring use of the account model in a payments platform where a UTXO model may be preferred). Among other things, they are limited to a few programming languages and cannot implement automatic execution of code.

Limitation #3: Sovereignty
The third limitation is that each application is limited in sovereignty, because they all share the same underlying environment. Essentially, this creates two layers of governance: that of the application, and that of the underlying environment. The former is limited by the latter. If there is a bug in the application, nothing can be done about it without the approval of the governance of the Ethereum platform itself. If the application requires a new feature in the EVM, it again has to rely entirely on the governance of the Ethereum platform to accept it.

These limitations are not specific to Ethereum but to all blockchains trying to create a single platform that would fit all use cases. This is where Cosmos comes into play.

Cosmos is composed of three layers
The vision of Cosmos is to make it easy for developers to build blockchains and break the barriers between blockchains by allowing them to transact with each other. The end goal is to create an Internet of Blockchains, a network of blockchains able to communicate with each other in a decentralized way. With Cosmos, blockchains can maintain sovereignty, process transactions quickly and communicate with other blockchains in the ecosystem, making it optimal for a variety of use cases.

This vision is achieved through a set of open source tools like Tendermint, the Cosmos SDK and IBC designed to let people build custom, secure, scalable and interoperable blockchain applications quickly. Let us take a closer look at some of the most important tools in the ecosystem as well as the technical architecture of the Cosmos network. Note that Cosmos is an open source community project initially built by the Tendermint team. Everyone is welcome to build additional tools to enrich the greater developer ecosystem.

What is Tendermint BFT and the ABCI
Until recently, building a blockchain required building all three layers (Networking, Consensus, and Application) from the ground up. Ethereum simplified the development of decentralized applications by providing a Virtual-Machine blockchain on which anyone could deploy custom logic in the form of Smart Contracts. However, it did not simplify the development of blockchains themselves. Much like Bitcoin, Go-Ethereum remains a monolithic tech stack that is difficult to fork from and customize. This is where Tendermint, created by Jae Kwon in 2014, came in.

Diagram for Tendermint BFT
Tendermint BFT is a solution that packages the networking and consensus layers of a blockchain into a generic engine, allowing developers to focus on application development as opposed to the complex underlying protocol. As a result, Tendermint saves hundreds of hours of development time. Note that Tendermint also designates the name of the byzantine fault tolerant (BFT)consensus algorithm used within the Tendermint BFT engine. For more on the history of consensus protocols and BFT you can check this cool podcast by Tendermint co-founder Ethan Buchman.

The Tendermint BFT engine is connected to the application by a socket protocol called the Application Blockchain Interface (ABCI). This protocol can be wrapped in any programming language, making it possible for developers to choose a language that fits their needs.

But that is not all. Here are the properties that make Tendermint BFT a state-of-the-art blockchain engine:

Public or private blockchain ready: Tendermint BFT only handles networking and consensus for a blockchain, meaning that it helps nodes propagate transactions and validators agree on a set of transactions to append to the blockchain. It is the role of the application layer to define how the validator set is constituted. Developers can therefore build both public and private blockchains on top of the Tendermint BFT engine. If the application defines that validators are elected based on how many tokens they have at stake, then the blockchain can be characterised as Proof-of-Stake (PoS). If however the application defines that only a restricted set of pre-authorized entities can be validators, then the blockchain can be characterised as permissioned or private. Developers have all the freedom to customize the rules that define how the validator set of their blockchain changes.
High Performance: Tendermint BFT can have a block time on the order of 1 second and handle up to thousands of transactions per second.
Instant finality: A property of the Tendermint consensus algorithm is instant finality. This means that forks are never created as long as more than a third of the validators are honest (byzantine). Users can be sure their transactions are finalized as soon as a block is created (which is not the case in Proof-of-Work blockchains like Bitcoin and Ethereum).
Security: Tendermint consensus is not only fault tolerant, it is also accountable. If the blockchain forks, there is a way to determine liability.
Cosmos SDK and other application layer frameworks
Diagram for Cosmos SDK
Tendermint BFT reduces the development time of a blockchain from years to weeks, but building a secure ABCI-app from scratch remains a difficult task. This is why the Cosmos SDK exists.

The Cosmos SDK is a generalized framework that simplifies the process of building secure blockchain applications on top of Tendermint BFT. It is based on two major principles:

Modularity: The goal of the Cosmos SDK is to create an ecosystem of modules that allows developers to easily spin up application-specific blockchains without having to code each bit of functionality of their application from scratch. Anyone can create a module for the Cosmos SDK, and using ready built modules in your blockchain is as simple as importing them into your application. For example, the Tendermint team is building a set of basic modules that are needed for the Cosmos Hub. These modules can be used by any developer as they build their own application. Additionally, developers can create new modules to customize their application. As the Cosmos network develops, the ecosystem of SDK modules will expand, making it increasingly easier to develop complex blockchain applications.
Capabilities-based security: Capabilities constrain the security boundaries between modules, enabling developers to better reason about the composability of modules and limit the scope of malicious or unexpected interactions. For a deeper look at capabilities click here.
The Cosmos SDK also comes with a set of useful developer tools for building command line interfaces (CLI), REST servers and a variety of other commonly used utility libraries.

One final remark: the Cosmos SDK, like all Cosmos tools, is designed to be modular. Today, it allows developers to build on top of Tendermint BFT. However, it can be used with any other consensus engines that implements the ABCI. As time goes by, we expect multiple SDKs to emerge, built with different architecture models and compatible with multiple consensus engines - all within a single ecosystem: the Cosmos Network.

To learn how to code applications on top of the SDK you can check out tutorials.

The great thing about the Cosmos SDK is that its modularity allows developers to port virtually any existing blockchain codebase already in Golang on top of it. For example, Ethermint is a project that ports the Ethereum Virtual Machine into an SDK module. Ethermint works exactly like Ethereum but also benefits from all the properties of Tendermint BFT. All the existing Ethereum tools (Truffle, Metamask, etc.) are compatible with Ethermint and you can port your smart contracts over without additional work.

Why bother creating a blockchain with the Cosmos SDK when I can just deploy my decentralized application on top of a Virtual Machine blockchain?

This question is justified, considering that most decentralized applications today are developed on top of Virtual Machine blockchains like Ethereum. First, it should be stated that the reason for this phenomenon is that up until now blockchains were much more difficult to develop than Smart Contracts. This is not the case anymore, thanks to the Cosmos SDK. Now, developers can easily develop entire application-specific blockchains, which have several advantages. Among others, they give more flexibility, security, performance and sovereignty. To learn more about application-specific blockchains read this post. Of course, if you don’t want to build your own blockchain, you can still make your Smart Contracts compatible with Cosmos by deploying them on Ethermint.

Connecting Blockchains Together - IBC
Now that developers have a way to quickly build customized blockchains, let us see how to connect these blockchains together. The connection between blockchains is achieved through a protocol called Inter-Blockchain Communication protocol (IBC). IBC leverages the instant finality property of Tendermint consensus (although it can work with any “fast-finality” blockchain engine) to allow heterogeneous chains to transfer value (i.e. tokens) or data to each other.

Essentially it comes down to two things:

Different layers: Heterogeneous chains have different layers, meaning they can differ in how they implement the networking, consensus and application parts. To be compatible with IBC, a blockchain needs only follow a few requirements, the main one being that the consensus layer must have fast finality. Proof-of-Work chains (like Bitcoin and Ethereum) do not fall in this category, as they have probabilistic finality.
Sovereignty: Every blockchain is maintained by a set of validators whose job is to agree on the next block to commit to the blockchain. In Proof-of-Work blockchains these validators are called miners. A sovereign blockchain is a blockchain with its own validator set. In many instances it is important for blockchains to be sovereign, as validators are ultimately responsible for modifying the state. In Ethereum, applications are all run by a common set of validators. Because of this, each application only has limited sovereignty.
IBC allows heterogeneous blockchains to transfer tokens and data to each other, meaning that blockchains with different applications and validator sets are interoperable. For example, it allows public and private blockchains to transfer tokens to each other. Currently, no other blockchain framework enables this level of interoperability.

The principle behind IBC is fairly simple. Let us take an example where an account on chain A wants to send 10 tokens (let us call them ATOM) to chain B.

Continuously, chain B receives the headers of chain A, and vice versa. This allows each chain to track the validator set of the other. In essence, each chain runs a light-client of the other.

When the IBC transfer is initiated, the ATOM are locked up (bonded) on chain A. How IBC Works #1

Proof Relay
Then, a proof that the 10 ATOM are bonded is relayed from chain A to chain B. How IBC Works #2

The proof is verified on chain B against chain A’s header and, if it is valid, then 10 ATOM-vouchers are created on chain B. How IBC Works #4

Note that the ATOM that have been created on chain B are not real ATOM, as ATOM only exist on chain A. They are a representation on B of ATOM from chain A, along with a proof that these ATOM are frozen on chain A.

A similar mechanism is used to unlock ATOM when they come back to their origin chain. For a more comprehensive description of the IBC protocol, you can look at this specification.

Designing the “Internet of Blockchains”
Cosmos Hub & Spoke Architecture
IBC is a protocol that allows two heterogeneous blockchains to transfer tokens to each other. From there, how do we create a network of blockchains?

One idea is to connect each blockchain in the network with every other via direct IBC connections. The main problem with this approach is that the number of connections in the network grows quadratically with the number of blockchains. If there are 100 blockchains in the network and each needs to maintain an IBC connection with every other, that is 4950 connections. This quickly gets out of hand.

To solve this, Cosmos proposes a modular architecture with two classes of blockchain: Hubs and Zones. Zones are regular heterogenous blockchains and Hubs are blockchains specifically designed to connect Zones together. When a Zone creates an IBC connection with a Hub, it can automatically access (i.e. send to and receive from) every other Zone that is connected to it. As a result, each Zone only needs to establish a limited number of connections with a restricted set of Hubs. Hubs also prevent double spending among Zones. This means that when a Zone receives a token from a Hub, it only needs to trust the origin Zone of this token and the Hub.

The first Hub launched in the Cosmos Network is the Cosmos Hub. The Cosmos Hub is a public Proof-of-Stake blockchain whose native staking token is called the ATOM, and where transactions fees will be payable in multiple tokens. The launch of the Hub also marks the launch of the Cosmos network.

Bridging non-Tendermint chains
Peg zones bridge non-Tendermint blockchains
So far, the architecture of Cosmos we have presented shows how Tendermint-based chains can interoperate. But Cosmos is not limited to Tendermint chains. In fact, any kind of blockchain can be connected to Cosmos.

We have two cases to distinguish: fast-finality chains and probabilistic-finality chains.

Blockchains that use any fast-finality consensus algorithms can connect with Cosmos by adapting IBC. For example, if Ethereum were to switch to Casper FFG (Friendly Finality Gadget), a direct connection could be established between it and the Cosmos Ecosystem by adapting IBC to work with Casper.

For blockchains that do not have fast-finality, like Proof-of-Work chains, things get a bit trickier. For these chains we use a special kind of proxy-chain called a Peg-Zone.

A Peg-Zone is a blockchain that tracks the state of another blockchain. The Peg-Zone itself has fast-finality and is therefore compatible with IBC. Its role is to establish finality for the blockchain it bridges. Let us look at the following example.

Example: Ethereum Peg-Zone
We want to bridge the Proof-of-Work Ethereum blockchain to make it possible to send tokens back and forth between Ethereum and Cosmos. Because Proof-of-Work Ethereum does not have fast-finality, we need to create a Peg-Zone to act as a bridge between the two.

First, the Peg-Zone needs to decide on a finality threshold for the origin chain. For example, it can consider that a given block of the origin’s chain is final when 100 blocks have been added after it.

Second, a contract is deployed on the main Ethereum blockchain. When users want to send tokens from Ethereum to Cosmos, they start by sending tokens to this contract. Then the contract freezes the assets and after 100 blocks, a representation of these assets is released on the Peg-Zone. A similar mechanism is used to send assets back to the Ethereum chain.

Interestingly enough, the Peg-Zone also allows users to send any token that lives on Cosmos to the Ethereum chain (the Cosmos tokens would be represented as ERC20 on the Ethereum chain). The Tendermint team is currently working on a Peg-Zone implementation for the Ethereum chain called Peggy.

Peg-Zones will need to be customized for the particular chain they bridge. Building an Ethereum Peg-Zone is relatively simple because Ethereum is account-based and has smart-contracts. However, building a Bitcoin Peg-Zone is a bit more challenging. Explaining how to build a Bitcoin-like Peg-Zone is out-of-scope for this intro but know that it is theoretically possible. If you want to learn more about Peg-Zones you can take a look at this spec.

Solving Scalability
Horizontal scalability with multiple blockchains
Now that we can easily create and connect blockchains there is one final issue to tackle: Scalability. Cosmos leverages two types of scalability:

Vertical scalability: This encompasses the methods for scaling the blockchain itself. By moving away from Proof-of-Work and optimizing its components, Tendermint BFT can reach thousands of transactions per-second. The bottleneck factor is the application itself. For example, an application like a Virtual Machine (e.g. the Ethereum Virtual Machine) will impose a much lower limit on the transaction throughput than an application where transaction types and state transition functions are directly embedded in it (e.g. a standard Cosmos SDK application). This is one of the reasons why application-specific blockchains make sense (read about more reasons here).
Horizontal scalability: Even if the consensus engine and the application are highly optimized, at some point the transaction throughput of a single chain inevitably hits a wall it cannot surpass. That is the limit of vertical scaling. To go beyond it, the solution is to move to multi-chain architectures. The idea is to have multiple parallel chains running the same application and operated by a common validator set, making blockchains theoretically infinitely scalable. Details about horizontal scalability are fairly complex and out-of-scope for this intro.
Cosmos will offer very good vertical scalability at launch, which will be a major improvement over current blockchain solutions in and of itself. Later, after the completion of the IBC module, horizontal scalability solutions will be implemented.

So in the end, what is Cosmos?
Cosmos is the internet of blockchains
Hopefully by now you have a clearer picture of the Cosmos project. Here is a quick recap of what Cosmos is in three concise points:

Cosmos makes blockchains powerful and easy to develop with Tendermint BFT and the modularity of the Cosmos SDK.
Cosmos enables blockchains to transfer value with each other through IBC and Peg-Zones, while letting them retain their sovereignty.
Cosmos allows blockchain applications to scale to millions of users through horizontal and vertical scalability solutions.
More than anything, Cosmos is not a product but an ecosystem built on a set of modular, adaptable and interchangeable tools. Developers are encouraged to join the effort to improve existing tools and create new ones in order to make the promise of blockchain technology a reality. These tools are the foundation needed to create the decentralized internet and global financial system of tomorrow.
submitted by jhelmste to CryptoCurrency [link] [comments]

2022.01.21 22:52 dumblibrarianx Wharf episodes 😳

I’m going back through the show as always and okay… I can’t be the only ones who thinks this two parter is a bit DARK. when Fanny tells Lin and the kids to get in and drown and they all tell each other they love each other 😩😭 I know there are some adult themes but this is pretty devastating for a minute. Thoughts?
submitted by dumblibrarianx to BobsBurgers [link] [comments]

2022.01.21 22:52 dinukada Photogenic

Photogenic submitted by dinukada to aww [link] [comments]

2022.01.21 22:52 ALV1DA bad old meme i made

bad old meme i made submitted by ALV1DA to dankmemes [link] [comments]

2022.01.21 22:52 HappyCat1912 How should we go about cooling the planet?

Obviously we need to transition away from fossil fuels and towards clean energy, but we also need to undo the damage that we've done. Even if we were to meet our emission targets, which almost certainly won't happen, we will still blow past 1.5 and most probably 2.0 degrees C- meaning we will need to interfere in order to combat positive feedback loops in the climate system.
Enhancing carbon sinks through rewilding is one way that this can be done. We should be giving our primary focus to the oceans however, as they produce a majority of our oxygen. Kelp forests, algae and phytoplankton all need to be bred and utilised to the fullest extent. Though I'm sure many would be against it I also feel that genetic engineering will be necessary to give them a chance at adapting in time; given the rate of ocean acidification and the fact that 2.4 degrees is pretty much the best case scenario right now- with us more likely looking at an increase of 3.0 to 4.5 degrees at this point.
I also feel that some level of geoengineering will be utilised. This will end up happening whether we want it or not, seeing how governments and major corporations are currently preparing for it, so we need to make sure that the less horrendous forms of it get used. I'm against aerosol injections, but the use of large reflective surfaces (either mirrors or platforms covered in white paint) shows a good deal of promise. Artificial clouds made from ocean mist, such as what they're using over the great barrier reef, also may be worthwhile.
What are your thoughts on this? Do you know any good ways of cooling and stabilising our planet while we work towards solving the root of the problem?
submitted by HappyCat1912 to climate [link] [comments]

2022.01.21 22:52 RanjitKumarSingh What kind of maths is this???

submitted by RanjitKumarSingh to HolUp [link] [comments]

2022.01.21 22:52 GunchapRed Can using AutoInput get you banned?

I wanted to ask if using AutoInput can get you banned. This is because I saw that Serg! has a guide on setting it up and he says that he hasn’t seen any reports of people getting banned over it, however I am quite skeptical.
submitted by GunchapRed to FireEmblemHeroes [link] [comments]

2022.01.21 22:52 vinillakillaOg How much should an Adult Amel Male AFT cost?

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2022.01.21 22:52 itsMondaybackwards What subreddit did you enjoy until you didn’t enjoy it anymore?

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