Trinity Wallet – Tutorial

On May 28th the IOTA Foundation has announced the beta release of the Trinity Mobile wallet app. On the IOTA page you will find a number of official documents that make it easier to get started with this wallet. Trinity is designed to make transactions as simple and convenient as possible. It offers a variety of helpful features, from easy-to-use QR code support, to under-the-hood details like address reuse prevention. For those who want to learn more about the Trinity Wallet, there is a very good tutorial on youtube:



What is IOTA and some terminology explained

This IOTA tutorial 1: "What is IOTA and some terminology explained" from shows basic informations about IOTA.

IOTA ist eine neues und bahnbrechendes verteiltes ledger, welches keine Blockchain verwendet. IOTA’s innovatives, quantenfestes Protokoll, auch bekannt als Tangle, ermöglicht einzigartige Features, wie z.B keine Transaktionskosten, schnelle Transaktionen, unendliche Skalierbarkeit, sichere Datentransfers und viele weitere. IOTA konzentriert sich zunächst darauf als Rückgrat des Internet-Of-Things (IoT) zu dienen.


The IOTA Token

The IOTA token is a cryptotoken built upon the Tangle technology. The token benifits from the advantages of this new Tangle architecture.The token operates on a permission-less Tangle network known as the Mainnet. Individuals are able to intereact with this network by operating a full node that is peered with neighbours. Alternatively they are able to public Mainnet nodes operated by a third party.

Token Generation

All IOTA’s which will ever exist have been created with the genesis transaction. This means that the total supply of IOTA’s will always stay the same and you cannot „mine“ IOTA’s. Therefore keep in mind, if you do Proof of Work in IOTA you are not generating new IOTA tokens, you’re simply verifying other transactions.

Token Supply

The total supply of IOTA is (3^33-1) / 2, which equals to a total number of IOTA’s of 2779530283277761. IOTA is specifically designed for machines, so this high supply makes IOTA optimal for tiny nano-transactions while still keeping efficiency in mind.
This supply fits nicely into the MAX_SAFE_INTEGER value in Javascript.

Supply Etomology

Since the number of tokens is quite high we adhere to the SI notation to write in short hand to denote a large number of tokens. Here is a breakdown of the notation:
Unit Name Amount Powers
Pi Peta IOTA 1015
Ti Terra IOTA 1012
Gi Giga IOTA 109
Mi Mega IOTA 1.000.000 106
Ki Kilo IOTA 1.000 103

A Note in Trinary

In this documentation you will often hear the phrase trinary-based which is a reference to the unique data structure being utilized in IOTA. Whenever we refer to trinary-based seeds, addresses, hashes etc., it means that the string can only consist of characters in the latin alphabet and 9.
// All possible tryte values

Because of the way that Kerl works, a single hash always consists of 81-trytes (81 characters) – sometimes it can be 90-trytes (including 9-tryte checksum).

Valid Trytes: VBVEUQY
Invalid Trytes: Vaafd8432