What is the difference between memory consistency errors and thread interference? How does the use of synchronization to avoid them differ or not? Please illustrate with an example. I couldn't get this from the sun Java tutorial. Any recommendation of reading material(s) to understand this purely in context of java would be helpful.
Memory consistency errors can't be understood purely in the context of java--the details of shared memory behavior on multi-cpu systems are highly architecture-specific, and to make it worse, x86 (where most people coding today learned to code) has pretty programmer-friendly semantics compared to architectures that were designed for multi-processor machines from the beginning (like POWER and SPARC), so most people really aren't used to thinking about memory access semantics.
I'll give a common example of where memory consistency errors can get you into trouble. Assume for this example, that the initial value of
and another CPU executes
will either see
Where CPUs differ from one another tends to be in the guarantees they make about
then another CPU executes
In this example, on some architectures, the second thread can see
Most architectures deal with memory at the granularity of a 32 or 64 bit word--this means that on a 32 bit POWER/SPARC machine, you can't update a 64-bit integer memory location and safely read it from another thread ever without explicit synchronization. Goofy, huh?
Thread interference is much simpler. The basic idea is that java doesn't guarantee that a single statement of java code executes atomically. For example, incrementing a value requires reading the value, incrementing it, then storing it again. So you can have
For more information, check out this paper. It's long and dry and written by a notorious asshole, but hey, it's pretty good too. Also check out this (or just google for "double checked locking is broken"). These memory reordering issues reared their ugly heads for many C++/java programmers who tried to get a little bit too clever with their singleton initializations a few years ago.
The article to read on this is "Memory Models: A Case for Rethinking Parallel Languages and Hardware" by Adve and Boehm in the August 2010 vol. 53 number 8 issue of Communications of the ACM. This is available online for Association for Computer Machinery members (http://www.acm.org). This deals with the problem in general and also discusses the Java Memory Model.
For more information on the Java Memory Model, see http://www.cs.umd.edu/~pugh/java/memoryModel/
Thread interference is about threads overwriting each other's statements (say, thread A incrementing a counter and thread B decrementing it at the same time), leading to a situation where the actual value of counter is unpredictable. You avoid them by enforcing exclusive access, one thread at a time.
On the other hand, memory inconsistency is about visibility. Thread A may increment
Memory Consistency problems are normally manifest as broken happens-before relationships.
You prevent this from happening either by using the
(Synchronizing the getter and setter would also fix the problem, but may look strange to other programmers who don't know why you did it, and can also break down in the face of things like binding frameworks and persistence frameworks that use reflection.)
Thread interleaves are when two threads munge an object up and see inconsistent states.
We have a PurchaseOrder object with an itemQuantity and itemPrice, automatic logic generates the invoice total.
Thread 1 performed an incorrect calculation because some other thread was messing with the object in between his operations.
You address this issue either by using the
1. Thread Interference
2. Memory Consistency Errors
For more visit this.