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SPEEDEX: A Scalable, Parallelizable, and Economically Efficient Decentralized EXchange

This repository contains the standalone implementation of SPEEDEX. For a detailed description of the design, please refer to our NSDI'23 paper (https://arxiv.org/pdf/2111.02719.pdf).

An alternative implementation of SPEEDEX, prototyped as a component of the Stellar blockchain, can be found at (https://github.com/gramseyer/stellar-core).

Repository Layout

The core algorithmic challenge of this work lies in efficiently computing equilibria in linear Arrow-Debreu exchange markets. Our algorithms are implemented under price_computation/

System performance relies heavily on an efficient Merkle-Patricia trie implementation, implemented in lib/merkle_trie_toolkit/ and used (to maintain orderbooks) under orderbook/ and (to maintain account state) under memory_database/.

Systems for assembling and validating blocks of transactions are under block_processing/.

License

GPLv3 dependency follows from the linear programming library (GLPK). Future versions will be Apache2.

Compilation Instructions

SPEEDEX depends on several libraries, included here as git submodules (i.e. clone the repository with git clone --recurse-submodules).

SPEEDEX requires a c++20-capable compiler. I have built it on an Intel Mac (MacOS 14.1) and on Ubuntu 22 with GCC 13.2. Please let me know if you encounter problems on other systems.

This project uses Autotools for its build system. That is, ./autogen.sh && ./configure && make

The configure script should identify any missing dependencies, with one exception. SPEEDEX uses the GNU Linear Programming Kit (GLPK), which does not include a pkg-config (.pc) file in some (perhaps all) package managers. The software is available at (https://www.gnu.org/software/glpk/), and this project works (at least) on version 5.0. This must be installed before building SPEEDEX (on Ubuntu, apt-get install libglpk-dev).

make test builds the tests.

Running Experiments

blockstm_comparison runs the payment experiments comparing SPEEDEX to Block-STM (https://arxiv.org/abs/2203.06871), as in Figure 7 of our paper.

Let X<=65535 be a a reasonable upper bound on the number of transactions per account in one block (i.e., for a block with 2 accounts and 100'000 accounts per block, use to 65'535) The binary should be built after running ./configure DEFINES="-D_MAX_SEQ_NUMS_PER_BLOCK=X -D_DISABLE_PRICE_COMPUTATION -D_DISABLE_TATONNEMENT_TIMEOUT -D_NUM_ACCOUNT_DB_SHARDS=1"

Add in -D_DISABLE_LMDB to turn off disk logging.

The binary will print its own configuration data before running. Figure 7 was produced with the following configuration. Hyperthreading was disabled.

========== trie configs ==========
TRIE_LOG_HASH_RECORDS         = 0
========== static configs ==========
USE_TATONNEMENT_TIMEOUT_THREAD = 0
DISABLE_PRICE_COMPUTATION      = 1
DISABLE_LMDB                   = 0
DETAILED_MOD_LOGGING           = 1
PREALLOC_BLOCK_FILES           = 1
ACCOUNT_DB_SYNC_IMMEDIATELY    = 0
MAX_SEQ_NUMS_PER_BLOCK         = 60000
LOG_TRANSFERS                  = 0
NUM_ACCOUNT_DB_SHARDS          = 1
====================================
initialized sodium

Running the experiments on synthetic trading data are more complicated. make synthetic_data_gen builds a tool for generating this data. It requires 4 arguments: a config file (e.g. the file at config/config_local.yaml), a replica id (which replica as listed in the config file should the tool simulate) an experiment name, and an experiment data config (in the format of the files in synthetic_data_config/). The experiments measured in the final paper, unless otherwise specified, used the configuration in synthetic_data_config/synthetic_data_params_giant_50_more_cancels.yaml.

./synthetic_data_gen needs the replica configuration because it generates data as one logical process, and then subdivides that data between replicas (by partitioning the stream of data into pieces, uniformly at random, with one piece to each replica). During an experiment, replicas read input from their local subset of the data stream, and broadcast this data to other replicas.

This process can take a long time, and requires quite a lot of disk space. I recommend substantially reducing experiment length (the num_blocks parameter) unless you need an experiment to run for a long time.