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I'm working on a 1-bit bimodal branch prediction simulator for a class project. I was thinking of using an unordered_map for the table but I need to be able to set the size, so I was thinking using a vector of pairs and table.reserve(tableSize) may be a good way to do this.

However, this leaves me with only linear search of the vector to find table entries which is horribly slow. Does anyone know a way that I can implement a hash function for this application?

For those of you that do not know how a branch predictor table works, the key is the PC address 0x12345678 and the value is T or NT (branch taken or non-taken). I also need a method of collision resolution. If a branch is taken, the bit (bool) is set to true, which will be the prediction for the next branch. If the next branch is NOT taken, the bit is set to false or 0. The purpose of the simulator is to measure correct predictions vs total branches to get the accuracy and compare it to other methods' accuracies. So, the ultimate goal is to use the 2 least significant bytes of the PC (by masking them out) to define the position in the hash table to store the prediction value 0 or 1.

Any help would be greatly appreciated.

On a side note: The maximum table size will be 1024 entries so the time complexity won't have a chance to really scale that high, but any optimization is worth it since I'll be entering this into a competition.


Decided to go with an unordered_map.

This is the solution I've got so far:

Header File

// bimodal 1-bit
class BM1Pred{
            std::ofstream &outputFile;
            //hash table with bool value mapped to addresses
            // 0 - NOT TAKEN, 1- TAKEN
            unordered_map<long long, bool> table;
            int tableSize;

            // constructor
            BM1Pred(std::ofstream& file, int size)
            : outputFile(file), tableSize(size) {}

            // deconstructor

            // member functions
            void parseResults(std::string filename);

share|improve this question
Did you think of using std::map? Seems fitting. – Violet Giraffe Mar 24 '14 at 15:30
@VioletGiraffe can I set the size of that? Also, the map must be empty initially. The values will accumulate within it over the course of the program execution. – Riptyde4 Mar 24 '14 at 15:31
You can add and remove elements, it's a dynamically-sized container. I don't remember if it has the method for reserving a specific size, but even if it doesn't - just add the required number of elements in a loop and initialize with blank values. – Violet Giraffe Mar 24 '14 at 15:32
@VioletGiraffe need it to overwrite one of the map elements 0-1023 instead of adding another one. If I initialize it to blank values won't adding another element increase the table size to 1025....1026...and so on? – Riptyde4 Mar 24 '14 at 15:37
Sure, but the [] operator functionality is such that a new key-value will be created if it is not already present. I am posting an answer for your reference. – CPlusPlus OOA and D Mar 24 '14 at 15:44

You can still use an std::unordered_map. If you want to reserve a specific size, you can use std::unordered_map::reserve.

But I can't see why std::map wouldn't be an option. Its size changes dynamically. Why do you need to "set its size"?

To answer your additional questions, in both cases map[key] returns a reference to the value that is mapped to a key equivalent to key, performing an insertion if such key does not already exist. So you insert or update an item by

map[key] = value;

in which case, the value stored for key is updated to value if key already exists in the container; otherwise, an insertion is performed. You don't need to check anything yourself.

share|improve this answer
it's because the table can only have up to a certain amount of entries. – Riptyde4 Mar 24 '14 at 15:47
@Riptyde4 Sorry, this is so unclear. An associative container does not have a maximum size. If you want to set one, just check size upon insertion and disallow if above a given size; but I can't see where this would be useful. Maybe you're not describing your actual problem here. – iavr Mar 24 '14 at 15:54
Can't you remove an item when you add one above the limit? – Veritas Mar 24 '14 at 15:56
@Veritas Of course you can, but I still can't see what's the point. I feel we're all involved in a pointless discussion here. – iavr Mar 24 '14 at 16:02
@iavr Yeah, I'll just keep a counter for the amount of entries in the table. I could post the project but trust me you really don't want to read through – Riptyde4 Mar 24 '14 at 17:52

I recommend to use a map container and the [] operator. Check out this online reference for more map performance details (e.g. red-black tree): Big-O Cheatsheet. Check out std::map and class template std::map for the properties, member function, iterator, etc. details. As far as I know, the map container is implemented as a red-black tree in C++11. I do know that back in the late 90s, it is definitely implemented as a red-black tree. Keep in mind that the ordering will be from low to high by default (e.g. less<Key>).

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