This document introduces how to construct and perform operations on encrypted DataFrames using Fully Homomorphic Encryption (FHE).
Encrypted DataFrames are a storage format for encrypted tabular data. You can exchange encrypted DataFrames with third parties to collaborate without privacy risks. Potential applications include:
Encrypt storage of tabular data-sets
Joint data analysis efforts between multiple parties
Data preparation steps before machine learning tasks, such as inference or training
Secure outsourcing of data analysis to untrusted third parties
To encrypt a pandas DataFrame, construct a ClientEngine
that manages keys and then call the encrypt_from_pandas
function:
Integer: Integers are supported within a specific range determined by the encryption scheme's quantization parameters. Default range is 1 to 15. 0 being used for the NaN
. Values outside this range will cause a ValueError
to be raised during the pre-processing stage.
Quantized Float: Floating-point numbers are quantized to integers within the supported range. This is achieved by computing a scale and zero point for each column, which are used to map the floating-point numbers to the quantized integer space.
String Enum: String columns are mapped to integers starting from 1. This mapping is stored and later used for de-quantization. If the number of unique strings exceeds 15, a ValueError
is raised.
Before encryption, the data is preprocessed. For example string enums first need to be mapped to integers, and floating point values must be quantized. By default, this mapping is done automatically. However, when two different clients encrypt their data separately, the automatic mappings may differ, possibly due to some missing values in one of the client's DataFrame. Thus the column can not be selected when merging encrypted DataFrames.
The encrypted DataFrame supports user-defined mappings. These schemas are defined as a dictionary where keys represent column names and values contain meta-data about the column. Supported column meta-data are:
string columns: mapping between string values and integers.
float columns: the min/max range that the column values lie in.
Encrypted DataFrame is designed to support a subset of operations that are available for pandas DataFrames. For now, only the merge
operation is supported. More operations will be added in the future releases.
Merge operation allows you to left or right join two DataFrames.
[!NOTE] The merge operation on Encrypted DataFrames can be securely performed on a third-party server, meaning that the server can execute the merge without ever having access to the unencrypted data. The server only requires the encrypted DataFrames.
You can serialize encrypted DataFrame objects to a file format for storage or transfer. When serialized, they contain the encrypted data and public evaluation keys necessary to perform computations.
[!NOTE] Serialized DataFrames do not contain any private encryption keys . The DataFrames can be exchanged with any third-party without any risk.
To save or load an encrypted DataFrame from a file, use the following commands:
During the pre-processing and post-processing stages, the ValueError
can happen in the following situations:
A column contains values outside the allowed range for integers
Too many unique strings
Unsupported data type by Concrete ML
Unsupported data type by the operation attempted
An example workflow where two clients encrypt two DataFrame
objects, perform a merge operation on the server side, and then decrypt the results is available in the notebook encrypted_pandas.ipynb.
While this API offers a new secure way to work on remotely stored and encrypted data, it has some strong limitations at the moment:
Precision of Values: The precision for numerical values is limited to 4 bits.
Supported Operations: The merge
operation is the only one available.
Index Handling: Index values are not preserved; users should move any relevant data from the index to a dedicated new column before encrypting.
Integer Range: The range of integers that can be encrypted is between 1 and 15.
Uniqueness for merge
: The merge
operation requires that the columns to merge on contain unique values. Currently this means that data-frames are limited to 15 rows.
Metadata Security: Column names and the mapping of strings to integers are not encrypted and are sent to the server in clear text.