on page <$paratext[chap.nmbr]><$pagenum>Section All9Section<$paranumonly>, Ò<$paratext>,Ó on page<$pagenum>Section NumberSection<$paranumonly>Chapter num <$paranum>chapter name<$paratext>Syntax #Syntax<$paranumonly> $paratext<$paratext> table_foot<$paranumonly> <$chapnum>A A A 99contents;;other==@@BBPJAqqAssuuww +Ìp +Ùo +àq ,6n +è`Annex C +él +êmš…Annex D ,7} +ëo +áo ,9} ,;} ,=} ,?} +ñ| ,A} ,C} ,E} ,G} *€€ +òoGšÛ „s (ÒD.1 &Ž€ &Œ€ Ú€ 'ð€ !(€ á€ í€ &¡€ &–€ € € € !u (â€ .€ 4u 6€ &ª€ Lw Su U€ a€ n€ {€ ‡€ ’€ ˜€ žu € ¬€ ¹€ Å€ Ð€ Ö€ %k (Ô D.2 )Æuu *€u *€ ,‰€€ -šz *T€ )·€z -€ -žz *V€ D.3 &„z &…€z ý{ (Ûs ,I} ,K} ,M} ,O} ,Q} ,S} ,U} ,V} ,[} ,]} ,_} ,a} ,c} ,e} ,g} ,h~ ,j ,k~ ) uu *Wz *Xz *Yz )Î€z *Zz )Ü€zz )è€zz )õ€zz *[z *\z *bz *cz *dz *ez +p +ºo +Áq +ÂoÂdÃ +Ã ÂdÃ +â HTÁìÂs +ÄHTÁìÂs ŽùÛlHTÁìÂs +ÅHTÁìÂs‰ÿÿW †ªª†ªªdHÂç€Áì +ÆHÂç€Áì ŽùÛlHÂç€Áì +ÇHÂç€Áì TW.|m >°Version 2.2°. ? @Verilog-AMS Language Reference Manual A° D#°/ E°.H*Áì +È H*Áì ŽùÛlH*Áì +ÉH*Áì ‰ÿÿW.†ªª†ªªl; FRunning H/F 3 G°0°. HRunning H/F 1 IHÂöÁì‰þù +ÊHÂöÁì‰þù ŽùÛlHÂöÁì‰þù +ËHÂöÁì‰þù W.dÀŠrÁžÁÎ +ã ÀŠrÁžÁÎ ŽùÛlÀŠrÁžÁÎ +äÀŠrÁžÁÎrl 8d Wnd0ÂlÁì‰þù +å0ÂlÁì‰þù ŽùÛl0ÂlÁì‰þù +æ0ÂlÁì‰þù W .dÂdÃ +ì¯”z`Á§×Áà +í¯”z`Á§×ÁàŽùÛl¯”z`Á§×Áà +î¯”z`Á§×ÁàWd0ÂlÁì‰þù +ï0ÂlÁì‰þùŽùÛl0ÂlÁì‰þù +ð0ÂlÁì‰þù W.d. ÂdÃ -;GGÂdÃ , EÁº` Âp$–ÿì ,"Áº` Âp$–ÿì!! 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HTÁìÂs 'NHTÁìÂsSOO ŽùÛlÂdÃšôSS 0TÁìÂsoQ0TÁìÂsÁîÿÚ%%S‹UT‹UTd$The °disciplines.vams° file ,†ªª£ª¨$`ifdef° DISCIPLINES_VAMS ¯ª§`else ®ª¦D `define° DISCIPLINES_VAMS 1 ÀMª¥$// ÀYª¤// Natures and Disciplines ÀEª£D// ,Àwª¢$discipline° logic Àƒª¡°,domain discrete° ; ,ÀIª Denddiscipline ! À¡ªŸ$/* ÀªžB* Default absolute tolerances may be overridden by setting the §ª6* appropriate _ABSTOL prior to including this file €ªœD*/ "À×ª›d// Electrical #Â“ª›$// Current in amperes ,Àõª™nature° Current ÿý›ª—°,units° = "A"; ÿüª—°,access° = I; ÿüvª– °,idt_nature° = Charge; ,ÿüvª–`ifdef° CURRENT_ABSTOL )°,abstol° = `CURRENT_ABSTOL; ,`else °,abstol° = 1e-12; ",`endif D endnature $Ásª$// Charge in coulombs ,ÁªŽnature° Charge ÿß‰ªƒ °,units° = "coul"; ÿÊMªq°,access° = Q; ÿÑªi!°,ddt_nature° = Current; ,ÿÏôªb`ifdef° CHARGE_ABSTOL ÿÏôªb(°,abstol° = `CHARGE_ABSTOL; ,`else °,abstol° = 1e-14; b,`endif D endnature 0TÁìÂs 'Q0TÁìÂsPVRRŽùÛlÂdÃ þVV HTÁìÂsoTHTÁìÂsÂ=ÿÓ--V%†ªª†ªª$// Potential in volts ,’ª©nature° Voltage —ÿþ°,units° = "V"; 0—ÿþ°,access° = V; °,idt_nature° = Flux; ,`ifdef° VOLTAGE_ABSTOL )°,abstol° = `VOLTAGE_ABSTOL; ,`else °,abstol° = 1e-6; ",`endif D endnature &ÀªŸ$// Flux in Webers ,Àœªžnature° Flux À_ÿù°,units° = "Wb"; Àÿö°,access° = Phi; Àÿö!°,ddt_nature° = Voltage; ,`ifdef° FLUX_ABSTOL &°,abstol° = `FLUX_ABSTOL; ,`else °,abstol° = 1e-9; ",`endif D endnature 'Áª”$// Conservative discipline ,Á&ª“ discipline° electrical ÿþV*!°,potential° Voltage; ÿú„x!°,flow° Current; ,ÿùDenddiscipline (Á\ª$// Signal flow disciplines ,ÁhªŽdiscipline° voltage ÿõüí!°,potential° Voltage; ,ÿùÈDenddiscipline )Á’ª‹,discipline° current ÁžªŠ!°,potential° Current; ,ÿß:©Denddiscipline *†ªªd// Magnetic +˜ª©$(// Magnetomotive force in Ampere-Turns. ,¤ª¨&nature° Magneto_Motive_Force ¥UR"°,units° = "A*turn"; ¥UR°,access° = MMF; ,ÿ?kúZ(`ifdef° MAGNETO_MOTIVE_FORCE_ABSTOL ÿ=ëúr6°,abstol° = `MAGNETO_MOTIVE_FORCE_ABSTOL; ,ÿ=ëúr`else °,abstol° = 1e-12; b,`endif D endnature HTÁìÂs 'THTÁìÂsSYUU ŽùÛlÂdÃ !YY0TÁìÂso W0TÁìÂsÂ%ÿÕ++Y,†ªªÀ–ªŸ$// Conservative discipline ,À¢ªždiscipline° magnetic ÀBª .°,potential° Magneto_Motive_Force; ÀGÿð°,flow° Flux; ,¢ªžDenddiscipline -ÀØªšd// Thermal .ÂŽªŽ$// Temperature in Kelvin ,Àöª˜nature° Temperature ÿý¨ª®°,units° = "K"; ÿý"ª¤°,access° = Temp; ,ÿýwÿè`ifdef° TEMPERATURE_ABSTOL ÿýU:-°,abstol° = `TEMPERATURE_ABSTOL; ,ÿýU:`else °,abstol° = 1e-4; ",`endif D endnature /Áhª,// Power in Watts ,ÁtªŽnature° Power ÿãP«\°,units° = "W"; ÿÍ¬\°,access° = Pwr; ,ÿÓ~`ifdef° POWER_ABSTOL ÿÔ0*'°,abstol° = `POWER_ABSTOL; ,ÿÓuV`else ÿÓuV°,abstol° = 1e-9; ",`endif D endnature 0Áæª…$// Conservative discipline ,Áòª„discipline° thermal ÿòH±Ê%°,potential° Temperature; ÿ³(°:°,flow° Power; ,ÿxãý(Denddiscipline 1†ªªd // Kinematic 2˜ª©$// Position in meters ,¤ª¨nature° Position ¥UR°,units° = "m"; ¥UR°,access° = Pos; ÿÁ†<"°,ddt_nature° = Velocity; ,Ù¿`ifdef° POSITION_ABSTOL ÏÁk´*°,abstol° = `POSITION_ABSTOL; ,ÌÖÁL`else ÌÖÁL°,abstol° = 1e-6; b,`endif D endnature 0TÁìÂs 'W0TÁìÂsV\XXŽùÛlÂdÃ !\\HTÁìÂso$ZHTÁìÂsÂmÿÎ22\3†ªªÀ¢ªž$!// Velocity in meters per second ,À®ªnature° Velocity ÀCUJ°,units° = "m/s"; ÀIUD°,access° = Vel; £ÿò&°,ddt_nature° = Acceleration; £ÿò"°,idt_nature° = Position; ,`ifdef° VELOCITY_ABSTOL *°,abstol° = `VELOCITY_ABSTOL; ,`else °,abstol° = 1e-6; ",`endif D endnature 4Á8ª’$-// Acceleration in meters per second squared ,ÁDª‘nature° Acceleration ÿü* !°,units° = "m/s^2"; ÿ÷¼«°,access° = Acc; ÿö6«\!°,ddt_nature° = Impulse; ÿõÌ"°,idt_nature° = Velocity; ,ÿõÌ `ifdef° ACCELERATION_ABSTOL .°,abstol° = `ACCELERATION_ABSTOL; ,`else °,abstol° = 1e-6; ",`endif D endnature 5ÁÎª†$&// Impulse in meters per second cubed ,ÁÚª…nature° Impulse ÿÉ7VÂ!°,units° = "m/s^3"; ÿÂqÿ°,access° = Imp; ÿÜ“ÿ–&°,idt_nature° = Acceleration; ,ÿÙ¹V¶`ifdef° IMPULSE_ABSTOL ÿáä¦)°,abstol° = `IMPULSE_ABSTOL; ,ÿáä¦`else °,abstol° = 1e-6; ",`endif D endnature 6†ªª$// Force in Newtons ,’ª©nature° Force —ÿþ°,units° = "N"; —ÿþ°,access° = F; ,ÿ“™ÿ¾`ifdef° FORCE_ABSTOL ÿ^‚ž'°,abstol° = `FORCE_ABSTOL; ,ÿ ¢Žè`else ÿÉwà˜°,abstol° = 1e-6; 2,ÿÉwà˜`endif D endnature 7À„ª $// Conservative disciplines ,ÀªŸdiscipline° !kinematic ÀZª¤"°,potential° Position; À…UL°,flow° Force; R,ÉSŒDenddiscipline HTÁìÂs 'ZHTÁìÂsY_[[ ŽùÛlÂdÃ !__ 0TÁìÂso(]0TÁìÂsÂgÿÏ11_8,†ªªÀÆª›,!discipline° "kinematic_v ÀÒªš"°,potential° Velocity; ÿÿÐª±°,flow° Force; ,ÿþ®ªÈDenddiscipline 9Àüª—d// Rotational :Ä,ªO$// Angle in radians ,Áª•nature° #Angle ÿúØ«# °,units° = "rads"; ÿ÷h«k°,access° = Theta; ÿ÷!V*°,ddt_nature° = Angular_Velocity; ,ÿ÷!V`ifdef° ANGLE_ABSTOL '°,abstol° = `ANGLE_ABSTOL; ,`else °,abstol° = 1e-6; ",`endif D endnature ;Á˜ª‹$*// Angular Velocity in radians per second ,Á¤ªŠ"nature° $Angular_Velocity ÿÂž°"°,units° = "rads/s"; ÿ©<²•°,access° = Omega; ÿÂ‚í.°,ddt_nature° = Angular_Acceleration; ÿÀŽ°Ò°,idt_nature° = Angle; ,ÿÀŽ°Ò$`ifdef° ANGULAR_VELOCITY_ABSTOL 2°,abstol° = `ANGULAR_VELOCITY_ABSTOL; ,`else °,abstol° = 1e-6; ",`endif D endnature <†ªª$6// Angular acceleration in radians per second squared ,’ª©&nature° %Angular_Acceleration —ÿþ$°,units° = "rads/s^2"; —ÿþ°,access° = Alpha; ÿŒÄ «*°,idt_nature° = Angular_Velocity; ,ÿf‰äC(`ifdef° ANGULAR_ACCELERATION_ABSTOL ÿt186°,abstol° = `ANGULAR_ACCELERATION_ABSTOL; ,ÿt18`else °,abstol° = 1e-6; ",`endif D endnature =ÀªŸ$// Torque in Newtons ,Àœªžnature° &Angular_Force À_ÿù°,units° = "N*m"; Àÿö°,access° = Tau; ,ÿeõ^!`ifdef° ANGULAR_FORCE_ABSTOL ÿJHñ/°,abstol° = `ANGULAR_FORCE_ABSTOL; ,ÿ”ñÏ`else ÿÅÙ”€°,abstol° = 1e-6; r,ÿÅÙ”€`endif D endnature 0TÁìÂs ']0TÁìÂs\b^^ŽùÛlÂdÃ ! bbHTÁìÂso,`HTÁìÂsÀÿöD b>†ªªÁª•$// Conservative disciplines ,Áª” discipline° 'rotational ÿþ’ªÏ°,potential° Angle; ÿû-U¿'°,flow° Angular_Force; ,ÿùMUÞDenddiscipline ?ÁPª,&discipline° (rotational_omega Á\ª*°,potential° Angular_Velocity; ÿ÷«~'°,flow° Angular_Force; ,ÿùª«_Denddiscipline Q@Á†ªŒd`endif HTÁìÂs '`HTÁìÂs_eaa ŽùÛlÂdÃ ! ee0TÁìÂso0c0TÁìÂsÂÿÙD&&eA‹UT‹UTd"The °constants.vams° file g†ªª£ª¨d'// Mathematical and physical constants ,µª§$`ifdef° CONSTANTS_VAMS ÀAª¦`else ÀHª¦D`define° CONSTANTS_VAMS 1 CÀ_ª¤d // M_ is a mathmatical constant D,Àoª¢,6`define°° )M_E°2.7182818284590452354 À}ª¢:`define°° *M_LOG2E°1.4426950408889634074 À{ª¤<`define°° +M_LOG10E°0.43429448190325182765 Àdª¦9`define°° ,M_LN2°0.69314718055994530942 0Àdª¦ :`define°° -M_LN10°2.30258509299404568402 8`define°° .M_PI°3.14159265358979323846 <`define°° /M_TWO_PI°6.28318530717958647652 :`define°° 0M_PI_2°1.57079632679489661923 :`define°° 1M_PI_4°0.78539816339744830962 :`define°° 2M_1_PI°0.31830988618379067154 :`define°° 3M_2_PI°0.63661977236758134308 >`define°° 4M_2_SQRTPI°1.12837916709551257390 ;`define°° 5M_SQRT2°1.41421356237309504880 L=`define°° 6M_SQRT1_2°0.70710678118654752440 Gd EdH// The following constants have been taken from http://physics.nist.gov BÁ7ª“d// P_ is a physical constant lÂªf$#// charge of electron in coulombs ,ÁUª‘L0`define°° 7P_Q°1.602176462e-19 HÁgª$*// speed of light in vacuum in meters/sec ,ÁsªL-`define°° 8P_C°2.99792458e8 pÁ…ªŽ$)// Boltzmann's constant in joules/kelvin ,Á‘ªL.`define°° 9P_K°1.3806503e-23 oÁ£ªŒ$#// PlanckÕs constant in joules*sec ,Á¯ª‹L/`define°° :P_K°6.62606876e-34 nÁÁªŠ$/// °permittivity of vacuum in farads/meter ,ÁÍª‰L.`define° ;P_EPS0°8.854187817e-12 LÁßªˆ$*// permeability of vacuum in henrys/meter ,Áëª‡LD`define°° <P_U0°(4.0e-7 * `M_PI) (12.566370614e-7) MÁýª†$// zero celsius in kelvin ,Â ª…L.`define°° =P_CELSIUS0°273.15 QNÂª„d`endif 0TÁìÂs '`c0TÁìÂsbGddŽùÛl ÂdÃ +¤qw0TÁìÂs +¥ps0TÁìÂsrrŽùÛl0TÁìÂs +¦p0TÁìÂs‰ÿÿqW{ †ªª†ªªd0ÂæÁì +§pqu0ÂæÁì ttŽùÛl0ÂæÁì +¨p0ÂæÁì TsW||g u#°/ v°. wVerilog-AMS Language Reference Manual x y°Version 2.2°. z0*Áì +©psw0*Áì vvŽùÛl0*Áì +ªp0*Áì ‰ÿÿuW}.†ªª†ªªl; 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