If you are new to the world of cryptocurrencies, I guess you would have heard this number of times that **Bitcoin’s hash rate**, also referred to as hash power, has increased or come down. Does the term make you wonder what it actually means?

I actually used to wonder in my initial days as to what Bitcoin’s hash rate/power actually means. And eventually, after learning a lot of stuff about Bitcoin, I was able to understand the reference.

Hash rate or hash power is something very critical and integral to Bitcoin’s network for a number reasons, that I will explain further in this article.

But before that, it is very important that one understands what this actually means because by doing so one will be able to naturally understand why this hash rate/power matters so much.

**Note:** Hash rate/ hash power is used in every cryptocurrency that is proof of work but for this example, I am using Bitcoin because most of us naturally connect to this cryptocurrency.

**What Is Hash Rate Or Hash Power?**

Hash Rate, also Hash Power, is the measuring unit that measures *how much power Bitcoin network is consuming to be continuously functional*. By continuously functional I mean how much hash power is it consuming to generate/find blocks at the normal mean time of 10 minutes.

If you remember, in my previous article *What is a Bitcoin hash* I explained thoroughly that Bitcoin network consumes a lot of energy because it has to solve mathematical intensive computations regularly to find the blocks.

These computations for finding the blocks are basically mathematical puzzles that a miner cannot just guess without a lot of computation.

To successfully mine a block, a miner needs to hash the block’s header in such a way that it is less than or equal to the “target.”

The target, at the time of writing this article, is that the SHA-256 hash of a block’s header must be a 256-bit alphanumeric string, and must start with 18 zeros. The target changes as the difficulty change every 2016 blocks.

And the miners arrive at this particular hash (or target) by varying a small portion of the block’s headers, which is called a “nonce.” A nonce always starts with “0” and is incremented every time for obtaining the required hash (or target).

Since the varying of the nonce is hit and miss, the chances of getting this particular hash (or target), which starts with these many zeros, is very low. Therefore, many attempts must be made by a miner by varying the nonce.

And this number of attempts made per second is called hash rate or hash power. And this hash power or guessing attempts are made by miners who mine the Bitcoin blocks by a process called **Bitcoin mining.**

To understand more about hash power see this short video on hash power or hash rate which perfectly explains it.

**How Is The Hash Rate Measured & its Unit?**

Hash rate, as I said, is a unit measured in hashes per second or [h/s] and here are some usual denominations used to refer it.

**Hash rate denominations**

- 1 kH/s is 1,000 (one thousand) hashes per second
- 1 MH/s is 1,000,000 (one million) hashes per second.
- 1 GH/s is 1,000,000,000 (one billion) hashes per second.
- 1 TH/s is 1,000,000,000,000 (one trillion) hashes per second.
- 1 PH/s is 1,000,000,000,000,000 (one quadrillion) hashes per second.
- 1 EH/s is 1,000,000,000,000,000,000 (one quintillion) hashes per second.

**Comman Hash rate Conversions**

- 1 MH/s = 1,000 kH/s
- 1 GH/s = 1,000 MH/s = 1,000,000 kH/s
- 1 TH/s = 1,000 GH/s = 1,000,000 MH/s = 1,000,000,000 kH/s
- and so forth

**Bitcoin Network’s Hash Rate & Distribution As Of Now?**

This is the Bitcoin’s hash rate distribution.

Bitcoin network’s hash rate now is 9.9 TH/s and is only growing as the more miners are joining in so more difficulty is going up.

**Hash Rate, Miner’s Reward And Difficulty**

Hash rate, miner’s reward, and difficulty are interdependent on each other in various ways. Whenever Bitcoin network’s difficulty goes up more hash rate is required to mine/find the blocks and as result miners earn the block reward of 12.5 BTC plus the transaction fees.

Interestingly, the Bitcoin network’s difficulty goes up because of more miners joining the network and thus the hash power needs to be increased (i.e. more computational guesses needs to be made per second to find the solution).

This interesting correlation is enforced in the Bitcoin protocol itself so that the average block time remains 10 minutes.

After reading this, some of you would want to mine bitcoins by providing hash power to the Bitcoin network but that **is a very costly and energy-intensive affair which everyone cannot do.** It requires you to make expensive hardware investments, pay for huge electricity bills, and demands that you have a good amount of computer knowledge.

*Article Credits to coinsutra*