To improve the performance of epileptic seizure detection, independent component analysis (ICA) is applied to multi-channel signals to separate artifacts and signals of interest. FastICA is an efficient algorithm to compute ICA. To reduce the energy dissipation, eigenvalue decomposition (EVD) is utilized in the pre-processing stage to reduce the convergence time of iterative calculation of ICA components. EVD is computed efficiently through an array structure of processing elements running in parallel. Area-efficient EVD architecture is realized by leveraging the approximate Jacobi algorithm, leading to a 77.2% area reduction. By choosing proper memory element and reduced wordlength, the power and area of storage memory are reduced by 95.6% and 51.7%, respectively. The chip area is minimized through architectural transformations. Given the latency of 0.1s, an 86.5% area reduction is achieved compared to the direct-mapped architecture. Fabricated in 90nm CMOS, the core area of the chip is 0.40mm^2. The FastICA processor, part of an integrated epileptic control SoC, dissipates 81.6W at 0.32V. The computation delay of a frame of 256 samples for 8 channels is 84.2ms. Compared to prior work, 0.5% power dissipation, 26.7% silicon area, and 3.4 computation speedup are achieved. The performance of the chip was verified by human dataset.