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📄 over-flows.ps

📁 ns2 功率控制仿真代码 The Linux pcmcia-cs package is officially deprecated. It can only be used with 2.4 and
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%!PS-Adobe-2.0%%Title: over-flows.ps%%Creator: gnuplot 3.7 patchlevel 1%%CreationDate: Fri Oct 10 08:03:38 2003%%DocumentFonts: (atend)%%BoundingBox: 50 50 554 770%%Orientation: Landscape%%Pages: (atend)%%EndComments/gnudict 256 dict defgnudict begin/Color false def/Solid false def/gnulinewidth 5.000 def/userlinewidth gnulinewidth def/vshift -46 def/dl {10 mul} def/hpt_ 31.5 def/vpt_ 31.5 def/hpt hpt_ def/vpt vpt_ def/M {moveto} bind def/L {lineto} bind def/R {rmoveto} bind def/V {rlineto} bind def/vpt2 vpt 2 mul def/hpt2 hpt 2 mul def/Lshow { currentpoint stroke M  0 vshift R show } def/Rshow { currentpoint stroke M  dup stringwidth pop neg vshift R show } def/Cshow { currentpoint stroke M  dup stringwidth pop -2 div vshift R show } def/UP { dup vpt_ mul /vpt exch def hpt_ mul /hpt exch def  /hpt2 hpt 2 mul def /vpt2 vpt 2 mul def } def/DL { Color {setrgbcolor Solid {pop []} if 0 setdash } {pop pop pop Solid {pop []} if 0 setdash} ifelse } def/BL { stroke userlinewidth 2 mul setlinewidth } def/AL { stroke userlinewidth 2 div setlinewidth } def/UL { dup gnulinewidth mul /userlinewidth exch def      10 mul /udl exch def } def/PL { stroke userlinewidth setlinewidth } def/LTb { BL [] 0 0 0 DL } def/LTa { AL [1 udl mul 2 udl mul] 0 setdash 0 0 0 setrgbcolor } def/LT0 { PL [] 1 0 0 DL } def/LT1 { PL [4 dl 2 dl] 0 1 0 DL } def/LT2 { PL [2 dl 3 dl] 0 0 1 DL } def/LT3 { PL [1 dl 1.5 dl] 1 0 1 DL } def/LT4 { PL [5 dl 2 dl 1 dl 2 dl] 0 1 1 DL } def/LT5 { PL [4 dl 3 dl 1 dl 3 dl] 1 1 0 DL } def/LT6 { PL [2 dl 2 dl 2 dl 4 dl] 0 0 0 DL } def/LT7 { PL [2 dl 2 dl 2 dl 2 dl 2 dl 4 dl] 1 0.3 0 DL } def/LT8 { PL [2 dl 2 dl 2 dl 2 dl 2 dl 2 dl 2 dl 4 dl] 0.5 0.5 0.5 DL } def/Pnt { stroke [] 0 setdash   gsave 1 setlinecap M 0 0 V stroke grestore } def/Dia { stroke [] 0 setdash 2 copy vpt add M  hpt neg vpt neg V hpt vpt neg V  hpt vpt V hpt neg vpt V closepath stroke  Pnt } def/Pls { stroke [] 0 setdash vpt sub M 0 vpt2 V  currentpoint stroke M  hpt neg vpt neg R hpt2 0 V stroke  } def/Box { stroke [] 0 setdash 2 copy exch hpt sub exch vpt add M  0 vpt2 neg V hpt2 0 V 0 vpt2 V  hpt2 neg 0 V closepath stroke  Pnt } def/Crs { stroke [] 0 setdash exch hpt sub exch vpt add M  hpt2 vpt2 neg V currentpoint stroke M  hpt2 neg 0 R hpt2 vpt2 V stroke } def/TriU { stroke [] 0 setdash 2 copy vpt 1.12 mul add M  hpt neg vpt -1.62 mul V  hpt 2 mul 0 V  hpt neg vpt 1.62 mul V closepath stroke  Pnt  } def/Star { 2 copy Pls Crs } def/BoxF { stroke [] 0 setdash exch hpt sub exch vpt add M  0 vpt2 neg V  hpt2 0 V  0 vpt2 V  hpt2 neg 0 V  closepath fill } def/TriUF { stroke [] 0 setdash vpt 1.12 mul add M  hpt neg vpt -1.62 mul V  hpt 2 mul 0 V  hpt neg vpt 1.62 mul V closepath fill } def/TriD { stroke [] 0 setdash 2 copy vpt 1.12 mul sub M  hpt neg vpt 1.62 mul V  hpt 2 mul 0 V  hpt neg vpt -1.62 mul V closepath stroke  Pnt  } def/TriDF { stroke [] 0 setdash vpt 1.12 mul sub M  hpt neg vpt 1.62 mul V  hpt 2 mul 0 V  hpt neg vpt -1.62 mul V closepath fill} def/DiaF { stroke [] 0 setdash vpt add M  hpt neg vpt neg V hpt vpt neg V  hpt vpt V hpt neg vpt V closepath fill } def/Pent { stroke [] 0 setdash 2 copy gsave  translate 0 hpt M 4 {72 rotate 0 hpt L} repeat  closepath stroke grestore Pnt } def/PentF { stroke [] 0 setdash gsave  translate 0 hpt M 4 {72 rotate 0 hpt L} repeat  closepath fill grestore } def/Circle { stroke [] 0 setdash 2 copy  hpt 0 360 arc stroke Pnt } def/CircleF { stroke [] 0 setdash hpt 0 360 arc fill } def/C0 { BL [] 0 setdash 2 copy moveto vpt 90 450  arc } bind def/C1 { BL [] 0 setdash 2 copy        moveto       2 copy  vpt 0 90 arc closepath fill               vpt 0 360 arc closepath } bind def/C2 { BL [] 0 setdash 2 copy moveto       2 copy  vpt 90 180 arc closepath fill               vpt 0 360 arc closepath } bind def/C3 { BL [] 0 setdash 2 copy moveto       2 copy  vpt 0 180 arc closepath fill               vpt 0 360 arc closepath } bind def/C4 { BL [] 0 setdash 2 copy moveto       2 copy  vpt 180 270 arc closepath fill               vpt 0 360 arc closepath } bind def/C5 { BL [] 0 setdash 2 copy moveto       2 copy  vpt 0 90 arc       2 copy moveto       2 copy  vpt 180 270 arc closepath fill               vpt 0 360 arc } bind def/C6 { BL [] 0 setdash 2 copy moveto      2 copy  vpt 90 270 arc closepath fill              vpt 0 360 arc closepath } bind def/C7 { BL [] 0 setdash 2 copy moveto      2 copy  vpt 0 270 arc closepath fill              vpt 0 360 arc closepath } bind def/C8 { BL [] 0 setdash 2 copy moveto      2 copy vpt 270 360 arc closepath fill              vpt 0 360 arc closepath } bind def/C9 { BL [] 0 setdash 2 copy moveto      2 copy  vpt 270 450 arc closepath fill              vpt 0 360 arc closepath } bind def/C10 { BL [] 0 setdash 2 copy 2 copy moveto vpt 270 360 arc closepath fill       2 copy moveto       2 copy vpt 90 180 arc closepath fill               vpt 0 360 arc closepath } bind def/C11 { BL [] 0 setdash 2 copy moveto       2 copy  vpt 0 180 arc closepath fill       2 copy moveto       2 copy  vpt 270 360 arc closepath fill               vpt 0 360 arc closepath } bind def/C12 { BL [] 0 setdash 2 copy moveto       2 copy  vpt 180 360 arc closepath fill               vpt 0 360 arc closepath } bind def/C13 { BL [] 0 setdash  2 copy moveto       2 copy  vpt 0 90 arc closepath fill       2 copy moveto       2 copy  vpt 180 360 arc closepath fill               vpt 0 360 arc closepath } bind def/C14 { BL [] 0 setdash 2 copy moveto       2 copy  vpt 90 360 arc closepath fill               vpt 0 360 arc } bind def/C15 { BL [] 0 setdash 2 copy vpt 0 360 arc closepath fill               vpt 0 360 arc closepath } bind def/Rec   { newpath 4 2 roll moveto 1 index 0 rlineto 0 exch rlineto       neg 0 rlineto closepath } bind def/Square { dup Rec } bind def/Bsquare { vpt sub exch vpt sub exch vpt2 Square } bind def/S0 { BL [] 0 setdash 2 copy moveto 0 vpt rlineto BL Bsquare } bind def/S1 { BL [] 0 setdash 2 copy vpt Square fill Bsquare } bind def/S2 { BL [] 0 setdash 2 copy exch vpt sub exch vpt Square fill Bsquare } bind def/S3 { BL [] 0 setdash 2 copy exch vpt sub exch vpt2 vpt Rec fill Bsquare } bind def/S4 { BL [] 0 setdash 2 copy exch vpt sub exch vpt sub vpt Square fill Bsquare } bind def/S5 { BL [] 0 setdash 2 copy 2 copy vpt Square fill       exch vpt sub exch vpt sub vpt Square fill Bsquare } bind def/S6 { BL [] 0 setdash 2 copy exch vpt sub exch vpt sub vpt vpt2 Rec fill Bsquare } bind def/S7 { BL [] 0 setdash 2 copy exch vpt sub exch vpt sub vpt vpt2 Rec fill       2 copy vpt Square fill       Bsquare } bind def/S8 { BL [] 0 setdash 2 copy vpt sub vpt Square fill Bsquare } bind def/S9 { BL [] 0 setdash 2 copy vpt sub vpt vpt2 Rec fill Bsquare } bind def/S10 { BL [] 0 setdash 2 copy vpt sub vpt Square fill 2 copy exch vpt sub exch vpt Square fill       Bsquare } bind def/S11 { BL [] 0 setdash 2 copy vpt sub vpt Square fill 2 copy exch vpt sub exch vpt2 vpt Rec fill       Bsquare } bind def/S12 { BL [] 0 setdash 2 copy exch vpt sub exch vpt sub vpt2 vpt Rec fill Bsquare } bind def/S13 { BL [] 0 setdash 2 copy exch vpt sub exch vpt sub vpt2 vpt Rec fill       2 copy vpt Square fill Bsquare } bind def/S14 { BL [] 0 setdash 2 copy exch vpt sub exch vpt sub vpt2 vpt Rec fill       2 copy exch vpt sub exch vpt Square fill Bsquare } bind def/S15 { BL [] 0 setdash 2 copy Bsquare fill Bsquare } bind def/D0 { gsave translate 45 rotate 0 0 S0 stroke grestore } bind def/D1 { gsave translate 45 rotate 0 0 S1 stroke grestore } bind def/D2 { gsave translate 45 rotate 0 0 S2 stroke grestore } bind def/D3 { gsave translate 45 rotate 0 0 S3 stroke grestore } bind def/D4 { gsave translate 45 rotate 0 0 S4 stroke grestore } bind def/D5 { gsave translate 45 rotate 0 0 S5 stroke grestore } bind def/D6 { gsave translate 45 rotate 0 0 S6 stroke grestore } bind def/D7 { gsave translate 45 rotate 0 0 S7 stroke grestore } bind def/D8 { gsave translate 45 rotate 0 0 S8 stroke grestore } bind def/D9 { gsave translate 45 rotate 0 0 S9 stroke grestore } bind def/D10 { gsave translate 45 rotate 0 0 S10 stroke grestore } bind def/D11 { gsave translate 45 rotate 0 0 S11 stroke grestore } bind def/D12 { gsave translate 45 rotate 0 0 S12 stroke grestore } bind def/D13 { gsave translate 45 rotate 0 0 S13 stroke grestore } bind def/D14 { gsave translate 45 rotate 0 0 S14 stroke grestore } bind def/D15 { gsave translate 45 rotate 0 0 S15 stroke grestore } bind def/DiaE { stroke [] 0 setdash vpt add M  hpt neg vpt neg V hpt vpt neg V  hpt vpt V hpt neg vpt V closepath stroke } def/BoxE { stroke [] 0 setdash exch hpt sub exch vpt add M  0 vpt2 neg V hpt2 0 V 0 vpt2 V  hpt2 neg 0 V closepath stroke } def/TriUE { stroke [] 0 setdash vpt 1.12 mul add M  hpt neg vpt -1.62 mul V  hpt 2 mul 0 V  hpt neg vpt 1.62 mul V closepath stroke } def/TriDE { stroke [] 0 setdash vpt 1.12 mul sub M  hpt neg vpt 1.62 mul V  hpt 2 mul 0 V  hpt neg vpt -1.62 mul V closepath stroke } def/PentE { stroke [] 0 setdash gsave  translate 0 hpt M 4 {72 rotate 0 hpt L} repeat  closepath stroke grestore } def/CircE { stroke [] 0 setdash   hpt 0 360 arc stroke } def/Opaque { gsave closepath 1 setgray fill grestore 0 setgray closepath } def/DiaW { stroke [] 0 setdash vpt add M  hpt neg vpt neg V hpt vpt neg V  hpt vpt V hpt neg vpt V Opaque stroke } def/BoxW { stroke [] 0 setdash exch hpt sub exch vpt add M  0 vpt2 neg V hpt2 0 V 0 vpt2 V  hpt2 neg 0 V Opaque stroke } def/TriUW { stroke [] 0 setdash vpt 1.12 mul add M  hpt neg vpt -1.62 mul V  hpt 2 mul 0 V  hpt neg vpt 1.62 mul V Opaque stroke } def/TriDW { stroke [] 0 setdash vpt 1.12 mul sub M  hpt neg vpt 1.62 mul V  hpt 2 mul 0 V  hpt neg vpt -1.62 mul V Opaque stroke } def/PentW { stroke [] 0 setdash gsave  translate 0 hpt M 4 {72 rotate 0 hpt L} repeat  Opaque stroke grestore } def/CircW { stroke [] 0 setdash   hpt 0 360 arc Opaque stroke } def/BoxFill { gsave Rec 1 setgray fill grestore } defend%%EndProlog%%Page: 1 1gnudict begingsave50 50 translate0.100 0.100 scale90 rotate0 -5040 translate0 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Cshow1.000 ULLTa4212 420 M0 4200 V1.000 ULLTb4212 420 M0 63 V0 4137 R0 -63 V0 -4277 R(2500) Cshow1.000 ULLTa5129 420 M0 4200 V1.000 ULLTb5129 420 M0 63 V0 4137 R0 -63 V0 -4277 R(3000) Cshow1.000 ULLTa6045 420 M0 4200 V1.000 ULLTb6045 420 M0 63 V0 4137 R0 -63 V0 -4277 R(3500) Cshow1.000 ULLTa6962 420 M0 4200 V1.000 ULLTb6962 420 M0 63 V0 4137 R0 -63 V0 -4277 R(4000) Cshow1.000 ULLTb546 420 M6416 0 V0 4200 V-6416 0 V546 420 L140 2520 Mcurrentpoint gsave translate 90 rotate 0 0 M(Routing overhead in Kbits/sec) Cshowgrestore3754 70 M(Aggregate sent Tput in Kbits/sec) Cshow3754 4830 M(Routing overhead vs number : sent thruput; 80 nodes in 4 clusters, 20 CBR conns) Cshow1.000 UP1.000 ULLT01890 4487 M(CLUSTERPOW) Rshow1974 4487 M399 0 V729 3261 M367 95 V367 118 V366 190 V367 104 V366 102 V367 151 V367 19 V733 -12 V1466 64 V1467 -93 V729 3261 Pls1096 3356 Pls1463 3474 Pls1829 3664 Pls2196 3768 Pls2562 3870 Pls2929 4021 Pls3296 4040 Pls4029 4028 Pls5495 4092 Pls6962 3999 Pls2173 4487 Pls1.000 UP1.000 ULLT11890 4347 M(COMPOW) Rshow1974 4347 M399 0 V729 3030 M367 41 V367 70 V366 167 V367 18 V366 92 V367 139 V367 54 V733 19 V1466 88 V1467 -50 V729 3030 Crs1096 3071 Crs1463 3141 Crs1829 3308 Crs2196 3326 Crs2562 3418 Crs2929 3557 Crs3296 3611 Crs4029 3630 Crs5495 3718 Crs6962 3668 Crs2173 4347 Crs1.000 UP1.000 ULLT21890 4207 M(DSDV at power 6) Rshow1974 4207 M399 0 V729 849 M367 37 V1463 611 L366 -31 V367 -63 V366 -74 V367 150 V367 17 V733 -2 V5495 508 L1467 16 V729 849 Star1096 886 Star1463 611 Star1829 580 Star2196 517 Star2562 443 Star2929 593 Star3296 610 Star4029 608 Star5495 508 Star6962 524 Star2173 4207 Star1.000 UP1.000 ULLT31890 4067 M(LOADPOW) Rshow1974 4067 M399 0 V1096 3047 M367 22 V366 89 V367 -60 V366 101 V367 22 V367 56 V366 95 V367 18 V1100 21 V366 54 V1467 77 V1096 3047 Box1463 3069 Box1829 3158 Box2196 3098 Box2562 3199 Box2929 3221 Box3296 3277 Box3662 3372 Box4029 3390 Box5129 3411 Box5495 3465 Box6962 3542 Box2173 4067 Boxstrokegrestoreendshowpage%%Trailer%%DocumentFonts: Helvetica%%Pages: 1

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