We introduce a CUDA GPU library to accelerate evaluations with homomorphic schemes defined over polynomial rings enabled with a number of optimizations including algebraic techniques for efficient evaluation, memory minimization techniques, memory and thread scheduling and low level CUDA hand-tuned assembly optimizations to take full advantage of the mass parallelism and high memory bandwidth GPUs offer. The arithmetic functions constructed to handle very large polynomial operands using number-theoretic transform (NTT) and Chinese remainder theorem (CRT) based methods are then extended to implement the primitives of the leveled homomorphic encryption scheme proposed by Löpez-Alt, Tromer and Vaikuntanathan. To compare the performance of the ...
Abstract. Homomorphic encryption allows computation on encrypted data and makes it possi-ble to secu...
Privacy guarantees are still insufficient for outsourced data processing in the cloud. While employi...
In this paper, we present an FPGA based hardware accelerator 'HEPCloud' for homomorphic evaluations ...
Abstract. We introduce a CUDA GPU library to accelerate evaluations with homomorphic schemes defined...
After being introduced in 2009, the first fully homomorphic encryption (FHE) scheme has created sign...
Homomorphic encryption (HE) is a cryptosystem that allows the secure processing of encrypted data. O...
We present a multi-GPU design, implementation and performance evaluation of the Halevi-Polyakov-Shou...
Abstract— In this work we introduce a large polynomial arithmetic library optimized for Nvidia GPUs ...
After the introduction of first fully homomorphic encryption scheme in 2009, numerous research work ...
Fully homomorphic encryption (FHE) systems enable computations on encrypted data without decrypting ...
Homomorphic encryption (HE) offers great capabilities that can solve a wide range of privacy-preserv...
Abstract. After being introduced in 2009, the first fully homomorphic encryption (FHE) scheme has cr...
Fully homomorphic encryption (FHE) can perform computations on encrypted data, allowing us to analyz...
Homomorphic encryption allows computation on encrypted data and makes it possible to securely outsou...
Lattice-based cryptography forms the mathematical basis for current homomorphic encryption schemes, ...
Abstract. Homomorphic encryption allows computation on encrypted data and makes it possi-ble to secu...
Privacy guarantees are still insufficient for outsourced data processing in the cloud. While employi...
In this paper, we present an FPGA based hardware accelerator 'HEPCloud' for homomorphic evaluations ...
Abstract. We introduce a CUDA GPU library to accelerate evaluations with homomorphic schemes defined...
After being introduced in 2009, the first fully homomorphic encryption (FHE) scheme has created sign...
Homomorphic encryption (HE) is a cryptosystem that allows the secure processing of encrypted data. O...
We present a multi-GPU design, implementation and performance evaluation of the Halevi-Polyakov-Shou...
Abstract— In this work we introduce a large polynomial arithmetic library optimized for Nvidia GPUs ...
After the introduction of first fully homomorphic encryption scheme in 2009, numerous research work ...
Fully homomorphic encryption (FHE) systems enable computations on encrypted data without decrypting ...
Homomorphic encryption (HE) offers great capabilities that can solve a wide range of privacy-preserv...
Abstract. After being introduced in 2009, the first fully homomorphic encryption (FHE) scheme has cr...
Fully homomorphic encryption (FHE) can perform computations on encrypted data, allowing us to analyz...
Homomorphic encryption allows computation on encrypted data and makes it possible to securely outsou...
Lattice-based cryptography forms the mathematical basis for current homomorphic encryption schemes, ...
Abstract. Homomorphic encryption allows computation on encrypted data and makes it possi-ble to secu...
Privacy guarantees are still insufficient for outsourced data processing in the cloud. While employi...
In this paper, we present an FPGA based hardware accelerator 'HEPCloud' for homomorphic evaluations ...