"... In PAGE 59: ... This result illustrates that a strategy that involves making safety improvements that are not cost-effective results in benefits that are smaller than 52 those that would be obtained using an optimal strategy from the resource allocation process. Finally, Table 21 summarizes all cost and benefit compo- nents for the various strategies, not just those shown in Table20 . Table 21 includes the total safety improvement cost, safety benefit components (safety benefits, traffic- operational benefits, penalty for resurfacing without safety improvements, and penalty for not resurfacing), and net safety benefits (not including penalty for resurfacing without safety improvements and penalty for not resurfacing) for the three budget levels in the examples presented above and for the two fixed strategies.... ..."

"... In PAGE 2: ... The works cited consider costs and benefits to estimate benefit, determine optimal allocations, and estimate cost. Table1 catalogues some of the resources that are considered by the analyses of the research described above. This list is representative rather than complete; it provides the basis for the examples we use in later sections.... In PAGE 2: ... PROPERTIES of COSTS/RESOURCES The introductory example motivates the need to consider separate resource dimensions in cost-benefit analysis. But what are some of the characteristics of different resources that need to be considered during such analyses? Further, how would these characteristics influence the choice of analysis technique? To help answer these questions, we discuss the different properties of some of the resources identified in Table1 , with particular focus on understanding how these differences can be reconciled or mediated. At the end of the discussion, we summarize our findings in Table 2 for a sample of resources.... ..."

"... In PAGE 72: ... Table2 compares the area and the speed of the optimized and unoptimized allo- cators. For the comparison, we developed Verilog RTL models for the optimized and unoptimized allocators each of which can perform allocation of an on-chip memory of 256 G blocks.... In PAGE 72: ...nd a TSMC 0.25u library from LEDA [21]. The optimized allocator reported a bet- ter performance in terms of speed and area. As shown in Table2 , the area of the optimized allocator is less than one third the unoptimized allocator. Moreover, the optimized allocator is much faster (8.... ..."

"... In PAGE 17: ...ow, we continue with the next possible resource allocation, i.e., P1. Due to space limitations, we only present the results. The set of Pareto-optimal so- lutions for this example is shown in Table2 . At the beginning, our search space consisted of 225 design points.... ..."

"... In PAGE 9: ...ig. 6. Resource Allocation Meta Model Some of these concepts are common for Staffware, FileNet, FLOWer and the meta model. However, they are often named differently, as Table6 shows. Table 7 shows the constraints for the Resource Allocation models of Staffware, FileNet and FLOWer.... ..."

"... In PAGE 9: ... Finally, in the current prototype, results are sent to the encoder in order to be displayed on a standard PC display. Table1 reports the global FPGA resource allocation for the prototype. It is possible to outline that the Edge Detection module has the highest computational load (expressed by the equivalent gate count).... ..."

"... In PAGE 44: ... Simulation Results The simulations present results from five different scenarios. Table3 tabulates the performance. The rows denote the kind of resource allocation strategy used while the main columns denote the five test scenarios.... ..."

"... In PAGE 50: ... Regis- ter demand varies drastically across threads resulting in a slow drop in misspeculation fre- quency, and consequently gradual improvement in performance, with an increase in register file size. Table3 presents statistics on the accuracy of DRP for the dynamic allocation of regis- ters, active list and LSQ entries. Unfortunately, demand for resources actually slightly var- ies even across dynamic instances of the same (static) thread.... ..."