In the application of Credit algorithms, the VCPU awakened by the I/O transaction is in the highest priority BOOST state, which gives it priority to gain access to the PCPU resources and improves the response speed of the I/O operation, but that will cause long time delay and destroy fairness principle, when multiple virtual machines are doing the operation of I/O at the same time. To solve this problem, SEDF algorithm, Credit algorithm, Credit2 algorithm are analyzed and L-Credit scheduling algorithm is proposed to reduce the response delay caused by multiple virtual machines' concurrent I/O operation. By monitoring I/O device ring sharing page to get the number of requests, which can further refine the sort in the I/O state BOOST operation, so that sparse type I/O operation can the implementation before the I/O intensive operations. According to the comparison report of the L-Credit algorithm and Credit algorithm in the same application scenario experiment, L-Credit algorithm can improve the performance of the I/O response, and inherits the Credit algorithm load balance and the characteristics of proportional fair sharing.