Have a look at
InnoDB is a storage engine for MySQL, included as standard in all current binaries distributed by MySQL AB. Its main enhancement over other storage engines available for use with MySQL is ACID-compliant transaction support
MyISAM is the default storage engine for the MySQL relational database management system versions prior to 5.5 1. It is based on the older ISAM code but has many useful extensions. The major deficiency of MyISAM is the absence of transactions support. Versions of MySQL 5.5 and greater have switched to the InnoDB engine to ensure referential integrity constraints, and higher concurrency.
They are storage engines.
MyISAM: The default MySQL storage engine and the one that is used the most in Web, data warehousing, and other application environments. MyISAM is supported in all MySQL configurations, and is the default storage engine unless you have configured MySQL to use a different one by default.
InnoDB: A transaction-safe (ACID compliant) storage engine for MySQL that has commit, rollback, and crash-recovery capabilities to protect user data. InnoDB row-level locking (without escalation to coarser granularity locks) and Oracle-style consistent nonlocking reads increase multi-user concurrency and performance. InnoDB stores user data in clustered indexes to reduce I/O for common queries based on primary keys. To maintain data integrity, InnoDB also supports FOREIGN KEY referential-integrity constraints.
I wanted to add that having ability to specify a specific storage engine per table is one of the key strengths of MySQL (besides easy of use and good performance with no tweaking). For all operations where transactions are needed, just stick with InnoDB. However, MyISAM can really speed things up when transactions are not needed in certain situations - and requires less disk space and RAM compared to InnoDB.
That said, InnoDB is getting better all the time:
MyISAM does not follow ACID as opposed to InnoDB which follows transactions to maintain integrity of the data.
MyISAM supports concurrent inserts: If a table has no free blocks in the middle of the data file, you can INSERT new rows into it at the same time that other threads are reading from the table. MySqlDoc
That is why, MyISAM is faster and takes less space. For instance, the MySQL MyISAM Storage Engine does not support tranactions.constraints of MySQL MYISAM There is a bit called concurrent-insert By default, the variable is set to 1 and concurrent inserts are handled as just described. If it is set to 0, concurrent inserts are disabled. If it is set to 2, concurrent inserts at the end of the table are permitted even for tables that have deleted rows. An INSERT statement can be executed to add rows to the end of the table with select at same time if there are no holes/deleted rows in middle of table (at time of concurrent insert).
The default isolation level og mysql InnoDB is "Read Repeatable". For MyISAM, there is no transaction. InnoDB uses row level locking while MyISAM can only use table level locking that is why InnoDB has crash revovery is better than MyISAM. One has to manually acquire the table level lock in MyISAM if one wants to avoid the concurrency effects.
InnoDB is the default NOT myISAM https://dev.mysql.com/doc/refman/5.7/en/innodb-introduction.html "InnoDB is the default MySQL storage engine. Unless you have configured a different default storage engine, issuing a CREATE TABLE statement without an ENGINE= clause creates an InnoDB table"