I am going to use a lot of text from the book Operating Systems Concepts by ABRAHAM SILBERSCHATZ, PETER BAER GALVIN and GREG GAGNE along with my own understanding of things.
Any application resides in the computer in the form of text (or code).
We emphasize that a program by itself is not a process. A program is a
passive entity, such as a file containing a list of instructions stored on disk
(often called an executable file).
When we start an application, we create an instance of execution. This instance of execution is called a process.
EDIT:(As per my interpretation, analogous to a class and an instance of a class, the instance of a class being a process. )
An example of processes is that of Google Chrome.
When we start Google Chrome, 3 processes are spawned:
• The browser process is responsible for managing the user interface as
well as disk and network I/O. A new browser process is created when
Chrome is started. Only one browser process is created.
• Renderer processes contain logic for rendering web pages. Thus, they
As a general rule, a new renderer process is created for each website
opened in a new tab, and so several renderer processes may be active
at the same time.
• A plug-in process is created for each type of plug-in (such as Flash
or QuickTime) in use. Plug-in processes contain the code for the
plug-in as well as additional code that enables the plug-in to
communicate with associated renderer processes and the browser
To answer this I think you should first know what a processor is. A Processor is the piece of hardware that actually performs the computations.
EDIT: (Computations like adding two numbers, sorting an array, basically executing the code that has been written)
Now moving on to the definition of a thread.
A thread is a basic unit of CPU utilization; it comprises a thread ID, a program
counter, a register set, and a stack.
EDIT: Definition of a thread from intel's website:
A Thread, or thread of execution, is a software term for the basic ordered sequence of instructions that can be passed through or processed by a single CPU core.
So, if the Renderer process from the Chrome application sorts an array of numbers, the sorting will take place on a thread/thread of execution. (The grammar regarding threads seems confusing to me)
My Interpretation of Things
A process is an execution instance. Threads are the actual workers that perform the computations via CPU access. When there are multiple threads running for a process, the process provides common memory.
Other Information that I found useful to give more context
All modern day computer have more than one threads. The number of threads in a computer depends on the number of cores in a computer.
Concurrent computing is a form of computing in which several computations are executed during overlapping time periods—concurrently—instead of sequentially (one completing before the next starts). This is a property of a system—this may be an individual program, a computer, or a network—and there is a separate execution point or "thread of control" for each computation ("process").
So, I could write a program which calculates the sum of 4 numbers:
(1 + 3) + (4 + 5)
In the program to compute this sum (which will be one process running on a thread of execution) I can fork another process which can run on a different thread to compute (4 + 5) and return the result to the original process, while the original process calculates the sum of (1 + 3).