Multiantenna telecommunication systems represent channels with multiple inputs and multiple outputs (MIMO) by matrices. QR decomposition (QRD) of the channel matrix is a crucial part of MIMO detection algorithms, such as successive interference cancellation or sphere detection. Modern standards like Long Term Evolution (LTE) require the processing of millions of matrices per second, in order to compensate channel changes that occur due to the mobility of the detector and Doppler spread. We introduce a new architecture for minimum mean square error (MMSE) sorted QR decomposition based on Givens rotations. The architecture is derived from classical systolic array approach but includes modifications to allow sorting and MMSE preprocessing. It balances throughput against area and fulfills the real-time requirements of 1.763 μs and 0.881 μs derived from the LTE MIMO standard when synthesized on ALTERA Stratix III and Stratix V family FPGAs. Moreover, it can trade speed for area and is suitable for tighter time constraints.