This paper presents performance estimations for a scalable VLIW soft-core in various XILINX FPGAs. It covers the low-cost low-power devices as well as the latest high-end FPGA families. The results represent the maximal clock frequency of the complete design including the processor core and the code and data memories. A scaling test has been done as well. In this case, the VLIW soft-core has incorporated various numbers of execution units and issue slots. It shows that the clock rate of the core scales much better with the number of execution units than proposed in estimations for standard-cell-based designs. It does not always create a lower clock rate of the design. Moreover, the highest possible clock rate shows some unexpected behaviour, when scaling the number of execution units. In some cases, a higher number of execution units cause no clock rate penalty. Finally, both ways of scaling the performance are compared with each other and some conclusions for a design space exploration of soft-cores are presented.