Mercury/Fuse Thunder Tech

[Mad Cow 483]

It seems that the only serious discussions of technology in this place are about laser, but if I'm not mistaken most modern uploads involving "computing" elements use thunder-operated switches. If anyone here has either general behavior analyses on the elements Fuse, Mercury, Thunder and Glass or components using these, I would appreciate it if you put them here. Also, I have a design for a laser-toggles transistor which is powered and produces an output in thunder, which I will post soon. This might let laser and thunder tech merge.

Also, I recognize some existing material will be duplicated here, but it would be nice to have everything in one place.

[mdog95]

Well, I'm currently inventing player course tech that I'm probably going to post in another thread. It'll have the life processing and the gate processing. It'll probably have the death processor too.

[Mad Cow 483]

Thanks mdog. If you could put your style of gate here (like the actual switches, not the whole machine) that would be much appreciated.

Here is the circuitry that HisCarlness cleaned up for me a while ago. This is just the code. It contains good explanations of what each piece does. These are very handy if you are new to thunder tech.

0012000000100*02102*01*03*06*05*01w00q00004000v00u01u0B*0200Du0F00Cv0E10E00Ku0J*0Hv0Lu0G*0Bv0Q002n00X0Bq0V000r0Xo0Vr0SX00p0Bs0Xp0Vt0BX00s0R00cp0J.00n0XX0Bp0Vo0WX0Bo0Xq0Xt0eX0p00Xr0rX0iu0c10M.0lX0g00cX0*p0ZX0Br0vX13X0nX0*r0w000t0X*0Hm0yu0B.0.00t01Fo1400YX0b01Hq0X.0EX0A01000AX0c01P01I01Rq0Xv0Vs16s0qX1X01So0a01Pp0ps15p1c000o1V002o0Jz1Ep1201fX1Yo1Hr0tp1Yp18q1gu1M01Ro1Fp0to0up0m01Ov1Ho0sX1Xo0uo1.01Op1Hp1uX0Bt1H.1f10Mz0.r1pX0*o1nX1501lr0uq0Xz1sq1ko1zX11X1601Fv2J019X1YX2Lo0Xs2Nr1kr1kt2Nx27u0Bz1jX2A02TX2Dr1kp1qX2Xu21o0Xu1xp1FX2Lv2Nt1kX2QX0dX2Do2Nu21r1Lo0Jy1Er1xq0o01l01Rt1GX2Dp18.1Mq2m010p1mX3201Oo1UX0h010s33o2IX1Np2Js2Lu1go1g*2W000y2tX17X1Xr0bp2Lr1Fq3DX0Bw1so2a02wp1xo1ao3501Oq2fX2LX1Ys2Np18u21p0Xm1C000.00z18o3Qo2i03RX1Yv18p3W01OX3YX2oX1wX3p02O01R*3F.3fX20X2Lp3MX1f01HX1Jq1Ft1kq2vo3bX2Lq3lX2Lt18*3F*3vq44X1Qq3.01SX36q3B02wo2pX4BX2Dq0Vp1eo2Vo0Jm0lP0Y00Cq1910Mm4O00cP3Ox00P00x1Dw4Nn4Wf00h00T3zw4XP4cw4Y14Sn4Wc00J1fP3OX4Pw1kv0sn2Gn41n3Us0Xy2RX0Bu4Ov4cP0D03ew4ZT0cJ4c000w18v1kn2wz1Eo1Ln4t00cn2gn4co25T5AP4gu0Bm4Or4l01Rp4K01lp0*X3zs2lo3Xo3xX0gp1Xp25X1Qp0mo1d05S01b00hX5J010o2BX0go5P01Ip5No2Kp0qn4WT5A019T4W010r0So4sX25n0en3904GX25p0On3gX30o42X3po32o33p5pp23X1*02wr12o5yX15o38X3zo5v060X5uX5*o1Fn4OT0nE0nT6C00cT5jp2Go0ro5oX3rw3d*29022X6201ZX30p2cX33v2y01Or6R03j01Sp6Vo6Tr56o6Tp0Xn6B00cE25E6DP2Ls3SX4Io5Z06Np5M05I05c06No6kX3zq5Hp4tp6mp2ls6qo0po0*s2vq6sX5a05710M*1Eq6YX2Zr73034X6QX1Qs6bX3rp12r2zX2Zo6Ts6.06Wo1an6dp00E6f06FP6hX65X68o7DX2mo33r6To6101lo6Oo5.07U05q07Yo39o64o3ro2yo1mn5sX3w07606Wr75p75s7Wo1Fr75v7907GX1Jo75r7IE3zr7Jo6g010q5N07hp7jX7P01Ss7z05W067081p5po84X7701Sv6Yn7f01tX6806UX7Po7b07Yp7lX3LX7.p8G07Xo6ZX8Bo66p6cn5g00AE1900AT6GX2n05k07p076r7.s7Fo7op0Vq3op7xo8508FX74X2nq7Dn7fr0pp16o2K06P07hX6rX3zX69X1Qt7Fp14o8mp5Hs24o6kp7Tr8tX8q03101fn8P*4w01Os1Fs7oo56p4nX7VX86o3Uo7SX6408Wp2C07yX5f10Mr1Rw1Rs4UT0GT8T083X7O05qo8IX1Yr9C08KX9Po8Go9Do8ep7a08no7To1Gn0Jr9Kq8b019p5go2XT4k094X8k01Po2Ko5e06N07Xr8.o8yX8l01ks7FX3zp9ZX8*o8x04to6x08810Mt3GP1fT02P3zv1Ex53n3co1Uo0JuA2n0l050n0so9f.1Ey0.q3Oo0O*0SuAJ00I10Mw82m1Eu0.o1DX9SX5nXAT00A.0JwAOn4oX0nn1Ht1Et72.0Jn1EX7No7xp5Ho5Hq5Uq5Hr5HX5Xp1o06oo9v01RX5RX1Qo8wX5Zp5bX30X5Jo5TXAmX16p0BxA7XAU.1Ew2wt3FnAQ09U09EXASo6Or9bX86r73o3rr6Vr8NX99o8r06Po9R050o0vp55X0qrAdn2408Ws8Jp3ZXBBX8YXAS07iX8dXBJpBS09G091XBXp9lp2yp6mt9r05L05VpAnt9vo9*X2noBdX5Np9lsAnq8.090qAk10Mn2Y0Bap7Fr2yr7AX2mrBz02ws3hX8H08Vo80pBZp7B0Bb09pX9AXBG082p85oBHo9Tp9W07ZX7tX990Bao7mXBJo96X441BunBPo95XBVp9806WpCSo7EXBVoCK09k0B708C0CTX1YtAe06i0CYo2hXBT081o7os5pz80r9BX30sCXo56sCM00TnBvp9Zo8LoB9X8D0BW0BQXCWXC2p9ToBF0Cao7d0CTn1xX5Zr16q5bp3TX7MpC906Nq2Ap5QqBJr4tq2Zp6.r7CpBn08X090rBOXAgX8*p6.o0uX8ppBm00wo9osAnp6aX8po5bs0wp9to2vXDGX630DT0DVX5DnD409uX8MX8UpCm0CZoCV06XXDEX7C06WsCSsDW07hw0r1ANyBPpCtXCIp8JoBA07ho66oCoX7N0E0XCH0CGo5x0CZr80oD*p6VqAWy3ypBl07pp7xsBgXDco9sp5Qo9s05Y09.09m01v0BqX78XA.05VqDb0BsXAr0ALs3cu0X171*1Xq0Bn1s1Ea0AMu0iv0T*0Pu0OzDi03GXAZXEcn2Tp6RoAI171z2cn0voEoX2Dy3FtEl06l05VrAl02vpAnrAhX8sX9yX8moAkX1QX6*qBk07XsAjXAsX7xq2lpDYo0JtExpClXCDX8g0Cxo66X3X0D1XE3oD2o66rE1XFMp3y0CG06UoFFyDnpBZoCUXC.X33XFJoCqpCXp75X5Xr9YX13oFWXBo08Vr7zp8UoFeXFb02E08npC6oBPrBy02wXFgX64rFi10znAiX36uAt010t0gs0StCQ02wv7kXB*r9TX3kXBU09prDnXFw0FUv3FzCsX2DsFTX4JX1DtEAXFcX8BpBZrGL0GBXCLX7xr8aX7M0FUpEt14hP1QP4Pp2SX2bXFMr18t0stEUpF.pDSX77pDSo5HtEUoED05Wo8vXEWpFo0EV0CfXDC034o4ZP5905gp9Nr3Qr3UXGJ03exEY10My5gP0BP93P4wTGyX1XsDkXFB03VX1er4XX1Nn0Ty4cp0BT1QTGZXB*t2Jr2FX0im0A1H2PGYpH4p93p2Nq56rEBX0u*1Bq1inBPq430CBX0ur0ET1fJ5js4X1FzX4I01StBxX4As1Yz19PHeP0dx0ky4Wo4jP5Qp2npHcXBVX8RX36o1rtHqTHo09O05GXC2o6zXHM03srGe10zyHrJ5jrGa082oCg01TX5Q08nq4Ru1DyI8P2DuIAoICqGdX2DtIG03ey59JI9X4uXBDX9Dq0wsH800EtAAX4Pn1E*1kxAbn4pX4uo3cnIfPH*r2gXIT06WXI4t2MtIY01Rm8FpId00DpIfTIhXIjoBZXIlX0uuIOu45pDJpI3pAw08CpHt06p0Bhq7FsI*03noEEpF8qGg03n03so24p5b*H3oH90I10JHpDeqIM01RuIyX7gp75o5zXFpp450Do0E60B6o8L08f0JUXBHpD*oCMoIS0DmXDgPHG02OpHu05WpHv0IDsCz00AtIYrIEoDtv8eX1JrDtp6VsGzXDApE9XJGoDlpEkm4OqHp10Mu45qESpDiq9DX8h0Jh0CJX5NqBVrFdX3J0Cbp16rG90KB01Ow3G1J*XJNXFnXCRXK30JSvJP0Jc01SrK90C0XGUo56vJsX1YwKGuJbqDy0E40JToKU09qXDjo7.oFQXDzXE7oKQo6TvKYp1kwKW01MrJ8XGpXDX0KNtEUsEH0Cbo6ksJ6p9zXK1XFkqBrrEPXKyoJbr6J0KR0ExqL3m54X0ByL602wy3Fr1O.1EnKPX3On23n1ku1Ot54o1ky3Fq1OxAH01fr18x3H0EVpAy0E*XESsBhtKwX6*oLS0LXoFApAv090p5UrBPX5O05UvEwyFYXI2XFOXGMoJkoFPXLjo8EoJOXCwoJRpCeo66uLgX3rsE20KZvBEXDqoCPXGNXKJ0JWoCXX5XoKNuLu0DopKC0FrXGtsLy0JSoL.0KZp0tq9DpMAXM3X6OuLAn0Xx7Yz21tDty2Un2Tn2vuLPsFZ07hsGOXLzXBX0MDXKeXDp0DhoM4o9dnMKo1kzENt3UyMOX1YqA6nDxXGM0MX0M809aX86pJZXMYoMFX2ZsMCo1Fu3Fp5UoLV076pJ2p6TX5brE.XDR06nq1xt5Up0mpN0XF60J6tF1pAx0BiX9oXAu0J707XtF5pBpXDOXM9XMtXN2pMCX9wXEI07TXKy0CYpD2X3Co0Jp5voCIoMApBC0FKXLj07ht1.o9XXLioCv0E4oCArGPoNW060yNVXEGX2P0GQ0I0oFtXNL0B3XIEp8evFH0MmoDnoMCp7myNm09pp9foDH0K5p79rB*pO1XIEtCEXER07prMV0OA0L3oNzX3LyN*pCqoMeXBJvJv03st9TsLh00DXL*0L3s6VpORX0qoEkp1Em1Es2xoDvuDN09Q0GVXOBoD0pONo66tHaoKNrNwpKNoNyXMWp1GoKlnIfX0dqAEX0W10MpMkoELoGkX6j041XERoGoo5Zo8Ut9CoDYXNJ090tDP0JD0Gs0NC0O0X4Ip6moJ6oN1oAwoEEqNA02Oo6q06np5UsMxXNMXO.09poN5XESoOvoI.X2PoD719IyJa0JX0Nh0KaXE7rMAoNkoLm01IoFI076oMs07XX4A0Na0Jco33q9dy97XDc08WoO80PjpBRXChpKQr7oXG7XOBp75q0JsElpOlXB.0M1XMZoGqoOE0JSpFsXFa0Ik0MnrPs08Wq9dr0etC4X3o0PpXChoQ3XP*0Q5XQFpQAXPw0MBXDAqQCX0GsKQpLp0NxX5*rPaXE3pPcrQ4oC*XE3qJrX7cX9VX30q0OqJ9XHAp12p3OrJApMkp9tXOPpEUr5vpEK0Oxp6msQm0HBoEEo18sQq0PG0ETXF30Pf03d.JHoFR0JBpICmOO00Ao6cp0ep0JoMnoM*06Wy2*00Yo3cp0rpQgX1NoCqXKA*0Hy0l10zqKiX6kq1sw0D1ROX8ro6OpBPmRRvRIo6w0Q.0P7rQO0PBX2mpPAXFBp0WvPmX7Q0JWXFSXPeo1uvRi0K608o0KOo0svRop73rNooD809GpRh1PUXDAsCesFXvAAn1KXArtJgs0ttG20JlXRU0JWpQZXDGvS1X8p0NpuGI01Sq0XwQzXPS0RaqBroQyp3cvGvrRl082q2qXGcX0ut2gtMKx4zo00fGwpICoS203sv1xr18m1sxHguJdoSXPNO0FUrJKpF10HB01Ps0xpGvcSXc9NpCerJKrC6q1qu4Wp13xSWhSYXFMoSatBZq18yHnp13PGwrSf000m4Tp9NqLXp1HuJVpT1t59PHR0H300YxSO0CaqG0vHk0HBsMit9h0JeTP90K5qHL0Sn0Hbq1W0Fqs2d012s30rDZ050pAAyTOpHHoSrX3q0EMqOx0LHXSDo5t03sq7WXS.XQdoTfp1UpTbPHQ0Sw0IBX3rXTYXCcXF4X7gtSapLsXLlXTy08nr3dr3v01sr2l07hr2UXU1tSR08nX9Dr5pX30.U3zIi0Mo07YrTX0ObqTUo9FXTn01lsDj03jp4up0FXHx0T6nSHnAY01Sy1kmIcXJbo2GpUGr6VXJkt3itU80LD03ioHV0Q8oTApN*qOo01fp0ZnLGoUGoUbXIuXUNrUgpCeqUgr4CpT*0R2XUuXUR1OsXDQo9lrPFp5UtKtoLZ0CapNH0V7sBhpPO03npJgXF7X4BpFTp3yoMiX46X9*oTktStXQfXVOo7xv3dpDeoQW0R0oD.XS8o7rXLk0JWrMqoCIuMq03VpAtpJio1aq3N0DoqULX4Pu8Jr5prTZqBL1V10U.0FN0BarQc0DrXJkvNwoRP03PXBB.UmXQ0r80s8ZXMpXRJXDI0CiXV*XGR07huRu00Y.V.07hv80vOjXDArHUX7.vOKpLGXWH.WBpVTpD*rQaoMr0Tu0VrpWMXRmXE3uE9oLFXQFrAGp5m0G5X8UvL8zWLXLTX7NpBfXKpoELpGlXW4sGfXWe08WXKqX5*XDdXFkpCBnLJn1UqWZs1UnMe1OsoUWnIon2Rp5.pV3XN8XSipF50C80MyX3ztQhp9*qG0pV9XQn0Fvo5buF8rPC0Bi1WyXEmq0qqUnsWRXVYoKNqLdoCAoCFoQToLwp2NoBAo33uQYXPep0Z1Rz08nsXTX6SX5XXW7p1HsG4o7WrMSoCqu7orE91XarDfrB*oAnsDhX7PrNLpDNqASrWkXKg02wuXlXXs0LAyXgXKDoDnrXr0Cy01yXW7r4rXQd0RpuXz0BQ1KH02wqAGn1AX0GXAUrOI0IrXOZoXc0JWsMk0E8XRjoKYoWS0UHoD0oUGpYRo1G1YCoR8XYG019o2NzSHpV9qAtoU1pOv0P80LbXD90NFqWloNI090sYl0NZXJgpCKoGop0n10MoPFXVFpFMqBjXF2oKzXX3X5TpK*0XD0P7qXGqPFmR6q1OyAE10MXQe07poQNpXUXMY0UIXKd0PWpC1oCInR6m7w0U4t3FXOPoOk0U4rONr1xsVtoXhXB*sIb*0JXZOX4PoPnpDD0Uho8LpM.XBYXW30MnpO604X*ZX0QU081sWG0CarVX0Wa0Q10RprOKx03uU1oCqsQWoY8oQa0Hb0PY0PXoOeXE3tY5081rWZo2go0sp2RnUYnSHX5R1YuXAroYs0NSXYz0ENpEQoGSXWh0OSo6krWl0EMX5*m9KX5fX1YuB3pa8X1Ym1Ev2c10Mq81x4D0Z1oPKp3qpLRXN2tX6oKop6mqQlX3IpaiX8*sXFXX2oYmpF1s0q14Ss9fyPd0PYo7RXXNXMloPcoNjXNbpNZrazXQVXYPX5w0VZXZEp4NyVxrMSpMArVxpG60DuXMZpYVXLi0MD14Syb8XWmoFurQAoFuoP5pRwtZipNYXMlpC6rQ603R1bIXJuXBVsONvbMXCnXKSX8UsPuXQHX30vEko0e1ANn1AoAipUnoDltLPpKkXJkpONpZD0RpoYTXbX0ODXQXXPZXbf0VsXb61bjX1Do41pUnyUVXDqpWj0R0qXqXP2pPQ0P7pZ1pBrpaj0SI0Ku06t0GQoaEsDf08K1Z90NkpP5oF5oDJXAf05Vtaq0PIXak0NFoGIo9loV4XLWXN8pW10Z2pVCpN6002XL7xZXoXYX7.rWEocj0Rcob0Xb30VI0Zrob10crXFIoCIy9fzT5XQJoZnrGT06WvFh02wwFf0RcpWE0KZsd0oCqzKmXQJpTKrc.o1asZiobUtbQXNorOHXZZXL*qPgod7yZkpCjXK8XW20Zqp8esPn0Wn0d3X33sZzpd6XDAzd80PNXJYXU00BwXax0ZrsGPpENoQTpXSXWT0VUXKhXIEy4qXEco1LtdMX5d0DfoDdqcDXEStc6oSMXQrXPosV7pdy0R0XXCod4XWo07XpL8qLCodq1H2s56u6UnF0Xao0cSXNJpX9XEWXe4pX80P7X2Xr0Jx81t2gp0vnZx0b50B6pdXoLoXcpoPV.0Y1Yuyb9XFJpZppWIXGAp1k*eXu0qyc80OCrbNXPxXX.obOXdI002rRAyZnoKjXbb0dU0Y4pDts1ArepXbSXdepdX0a0Xbvo6T*ef01fyc8oaEtWlpeGpDNo9opP5qBrxf2xLMpVnXG*qaAqM7p0m.S6o3E*9HuLEXKI0J3q3ip3UqThoQxXSTX2D*0HnRNufM08A0WQX7xX2jX7gqThsVN02w*0H.AWn3muICpICv21qfdXfT01S*fVneMn9fp6RpNe0bDqfHX0usIV0UO04XrTWXIWp3Qq5HzEhnVmX2ZXKAo1LXTx0aQ02xX2LyJSXU*0OaqBPyCrn4WqG*oC10JBoer0fYtfS0g901RxgB0SjXJQXJkugFT4UoI4oYNqQpX0*vVMXfwXfnq4srU6og307YX30nRSuEnPSXJT4X3AX9lq4Cr0ms15qVK0g8qVhrLGrICX32sUPoAnxgTq5jzHD0UiX2ZqUd082xgFP4Pzg.XUNoJRog*01Sx0TuA2pTEr8Jq6TqT9XL7uTrT3zT1QrVlXaw0RauhAyTFP1QvT5uhB03fxRAX1Nw5py5pxUWrMgX13nUW*3e1cMq3UrYF03Rohey6HX3Op5H.do0R6s1HyUWv2GXAR00EoZkqVBX2PpP10E.oG0oVCXY*0F.0Z2oPFrfrXRe0W50LXXhyXRg00jX2Lz1k.OWXAIX1Jza71cMtR3oOhXVJ0FNodm08WrVcoM20X5p2JoiIoPqnVrXCHpNBqG0X9n0BhohzphwXYw0da090oPFqEUqLd0Fv06nwF8whTqMWo5pvThvec0WQpiF0ieXELriloEu0BI0TuoCvoeUohLoE2oXxodiXE7qidoD0uPcvPzXZEoeho14pM0pOKriz0UB0CepbrX9Rp0qpMU0YO0RppgIvbCpbhXMZXMH0Cb01sp6VvhrXj3X8UrWJ0RBXWFXb6XTv0jAXXpXR.XEcpjEobLXf0XXw0KEp79q32rFJXjLo0trJbpjO1hcXdkoVTqYLoiEXE3rj8rYNpLhoeU06WnXM0jT0R6pj7XjRXNsoPqoOUX2DXjjXgAX86vih0NFpDypKJoYmoM*oQwXTjXb3pGjX4Apj6XSJqWjoD7X0GoYNrOiXiIpgIpjB0OaoYQX9PsQ4pYUX2Zv0JvBLX3Oq2gqiWXWq0EysKx0ZB0I1pkJ0EVo9soPMoF.o6yXMWqJ5XKp0gh0R6rKFqSUX0SsUV1EaXhUskxuEguALvEh*AK10MsExoUnwX4y7YsL2oho03epPzya9X7qXjDXKVnYI.U3yZ4XO9pcTqYypcQo5*qYv0LYXVFo0*qlIpN7olM0Jf0eKoi1tlBXcmrQTrbR0khoR3pkU0PWo2vrVcpgIoXX0K6o8mX6h1l3yVwX8BrDsXdPok2XQ2Xbc087XFJsPv0Dr1lnXX.rbUoX00lVpdBXenols0jypZirDF0VupM7og*r0d1lz08WvjJ07*XlD0dd0bw0ZlpkSo9FpjOXQLX6kwlY0jFo9Trlbom20ZloP00jzoKf0Z*pba0JIXmBu0dyaNpXAXEWoI30P3XTPpQupaNoaL08u0kgolgXe4oCQpDJqTZtALp6UrAL*1lq0drl0umy1Eev0To3eXAUt2ttAW*hXtAdyJAtOvpdsXkKXEWsQho17tb7XPtXOcXVWXckXeVXQVt0Jql4X2XXGHXBJs3QpCltn5XglpZbsccpOSqXv0E8tnD0CYr2MXiyXTw0NqX3LtnYoD0r8zXZGomVomZolgtnRo9otKsXaKXNPX8c0P8o6koIOvn003ev9d.9f*ks*Ei1m.umzu0qzi00RarTWwo2u7Fq18XHyX4EX1Nmf2nU4qOS0TgXSPvgZ0BaXFMtHTX0GqAdzTko2NXfa0a3qEkrgu07YtoJ0L9qoLXJnXJbXoOp3UteqXRvXg7r41rRAzo2oAnoe.wo2soN0gJXo8s0pq5DrPzzgeomA02w.oQXNopCetna002qoV0fYoIv0mDX7gsojpouXTfq1Aq0OPH6Pp500DxTkpHZX8*r1xvoGp18r40Xp2XoK171PHGPp6qhzrTWrfEsK4p1ap56X3e03NsL7qo2qpKX3I01gri0sESr5.sKKqgAqp4T4kop6pNr0R4XSDpBPwTkqEkq56qUA*0Hopco9hP93oIApoRpgIwpjXQFqplXIEri8*pcqHrT5joUcXSPX30uaA0TlXpvX8Uqpm*aru0GPpIoTD0XyX8RoZzoIispNXHJ081qpwsIW.4Uv0pt17pA9X2znWwXLE1pHT9LoHr0qC06Prg40qV*UgsgMqHa*4UcSqf00cSqPIEqka00DoWW00Dnk.0A4T0YPSirkRXqXo2NwoGsqaXqgX1Dp59h4chqxTX7XV20Q.p9ltag081XN2sfAXOwXcYXF2pFkoNro9ooidX6r1qSo4jfqUrpfXk40EOppiXTzXq6XrL0q40lAPqet5jtVSXXfXY8pWNXa*Xek0QGoZCX6OXFCXdb0XP0bVuq9T0APJ2qgnXpVqF.sqG02OslRXrLsJkwqL0rNpjIX2DvmSXQ7odSoYLrZTXXe0etoY3o1u1qSJSho0Gxh7XHJpM7rm7oQIrc5XArrey0O3X7.XGDpd2XWi1qSp5jm4evqu0bD0ZqrYApCSpevXbGpDloRCXpVpsE0OR1pHJs10T6xGxPpI0rqXrS0YSXbx0auoeQodHorY0S9XbcoPopDx1rDPEcxTDTH3Tqz0mapgmXaGqc6p3.or0XeF0Q.o3Io5bt8.pTftf60ma0221qSP3zn4eppIpA*xpcp0nx4Wr2Xxp4q0isIOsZMnheoTqXaVn4snVmn0k.tHX0SplC00UX9Sn4NzV6XiYpAnulS0m1XiYtanpiSXhJXi5pLcXoOoMP171yWO0ZHXMIXlZXnI0V8XBHrlhXjYoiGph8oeP11MtJbsL8oMKXn1nMKn0rn58XdVnrx0P6oa5XnE0jFpbF0jyoiLXntXtR1VpxqQ0hfXAUxOVpMhpbvpdFpmGpbTXC9rrWrW9rNwXk5060nN*rSLXTPscfXhuohxofapZ0XlQ04ConB0cKXcRp0mr5bqiTpNErtvXjd081u7nXDAvYAogKoYAXuOotsuPipe.poTpiN0kTXnH0dl0OarbuojwpXV07Yqlo0JHmBvobp0uv06WukP0u4XsAojqXE3sMuXhZ1VpuU6punX0uviqXuIXFJtvI0iZquk0YDXhZXnp0cGXGtpmmXFktdvpZe08CocJXWf0NFtvC00YnuQXW3pfvpM0riX0jGX3oqMZqdF0KOpGTrbKX5T*B2n3cs2r1VpqZzw4H0jzpebXbEXuipoDoThwvvwLMxOVsvsuPiojr0b.0vO0u6XNbomXobu0Kc0uxpv4ovbqumXTfvKmpvT0EF05Vs7TqvhpJ4XF3okeokgrDeXnq0Yi0iZXdIpkCXN2wKmo3t*Op1YuqMKvL2zc40hlXnMoaR0ffX0do0kzweXfXmAGX0WnUpXwk1J*zs*0wLXtUXSJtt1ohzXiUXJgowy0N3XQ*pMys48X7eX8UuIqvtPzwm0TgnhVXjlXXxrldXiIra.0seXby0U7XsdoiKX8Yo0OXx40cg03fn3Upe7XnM0C0nhmXL7XdVXruXOPrCqrsMXBVtQTv9uoZkXN2oXGrrBodspV5XTPqi3oLRpApqd*Xn9opVXPL0YdXO9o73pSPpuH0Nppl*XxXrKK0Cxpg0XZgp5psZisZNoNXXQbXfaoftomXpdjodcpnhoy5o8ErxD0ZF0w6oe.XjZ0x*XQFoQI0a4Xu3o7WplaXCnodr0i2ou70yQ0tm0i2rLwoFXXjV0yK0yTXmGvUD0iZoSZXrV0ybonjXb4oTBXxHpnPXcu0FUoD*sZN0DB0eRXjLpgep14rD60Z.r39rmN0Fqov7pdDXqGpM0oO2oU6qsuXuSXWrXwwXsxpmgpZ1sTKqYoX2AokE00hoySoPqrr.XlpXC2syl0UHsrvXkjoyMpyvXk00ypXM0XkNXxSsIOXw9XyhsYNod0ryj0eRoG6oy50PXrzdouuoyYXXxmY5q25txeokEo8mszbX9tpmq0EOXzsX8Hof9X8UXxrowRXn80l7XsxsWEpGSxZkx2Hq0vxZktREq9Kx4N.UW.IaX5DsAA*BM0T6tAWztT0Myp5Hv6ipzGpEPpwOokopFMXNEp2upkZzthoyFo6VuwBo.XXiOXb20dloCwr3dXCcn2UowfoQDXzQXluoWZpbJ0v80jMp9upZkoUWo0ZqGeXmfXW2qGtvjk0KOrFHrskX3YpUSptap6mrtWshx06nofPXkrpXB0wUXA*sd4pbCuG4pZpoYAszr00hp.pXyhowAXyhrFRoqXpjX0mQXCwund0v5plepkX0e*0lfXWPrc.p.o1cMoZU0w80yWoNN0ZrpXjX30wsB0aO0vR0UQ0TIXr50*iplP0J3XYqXkI0PNp*H0ysovArekrob0CZpvhobPt.gp0Zr*tpv1psNXNsXXxsbss.hqA*n2rX3Ar*tpv4rFHoRVXcyXrbrd4*0Pnci0mnXzw0P5sVCqkd0kk0f40cKp1A*vDu5Dp1A*4ur08104104104104104150qcK0

[mdog95]

I'll get to putting the gates and stuff when I can, I guess...

[mdog95]

My tech involves different stuff than yours...

[Alonso]

I used glass as a switch, I pull the glass, which as stone falls into lava pulling that up and then it will hit a reactant causing an explosion, yet to make it uploaded.

[Mad Cow 483]

Ok here is the laser-toggled transistor:

10120000e100000000100*02102*01*03*06*05*01w00q00004000v00u01u0B*0200Du0F00Cv0E10E00Ku0J*0Hv0Lu0G*0Bv0Q00N10M*0Pu0O*0Su0X00I10V*0Y10b00au0R00e00Uu0fv0T*0W10dv0j*0cu0iu0Zv0m00g*0ku0o10lu0pu0v10u10xu0tu0z00h00**0s010*0n01200r*13*11*17*16*1901501Bv0qv1Du0wu0.*1801Cu1F014v1E10y01Ku1J*1Hv1Lu1G*1Av1Q01N11M*1Pu1O*1Su1X01I11V*1Y11b01au1R01e01Uu1fv1T*1W11dv1j*1cu1iu1Zv1m01g*1ku1o11lu1pu1v11u11xu1tu1z01h01**1s020*1n02201r*23*11q00X0Bp00o28000t00n2Bz2Bq28t0Bw2DX0SX0fw0Jq2Bp2AX0Bt2I000z2Bt2Ro2B*0Hw2LX2OX00p0Bq28p2YX2X02XX0BX2ap0Bo2Z00AX2A02MX2iX2fX29X2bq28o2d02CX2a02Bo2gp2BX2iq2tX2mp2lp2y02c02E*2V000s2j02N02.o32o2o031X2l034X2lo38o36o2sX2m033o36t2FX2io35X3IX38p3D033p3Mo3Jo0B.03u2rw3Ms3J02q03NX3LX3X03FX3Eo32t3H03Vo3Us3TX3Yo2T*30t28q2x02cr3BX2bo3Mp3oX3gX2lr3Yt3cq3j03W02cp3Ep2w03vo3h10Mq2Bs32s3f03dX3aX44039033s3bX2rp3Up40X38s3OX45*3R02h03702No3q046t3p03Zo3mo3m046o3GX49X3A03zX45o3Uo3U*4Fq28s4SX3kq3yt3CX2nX2k02co2po2jp2ao2pt3tX4eo32p3yp2wo2zp3.u0Bs2.s3h000x0A10Mo2cq2mq0fy4vu1.*21*50*26*52025054v1TX2C04B000y2Bx2Pv2Bv33n2.m2Pt2Q13*X49n2Br33v5Dp2Bm5Fz30q2uo3xX2br2gX4gX2bp5P02hp5Qp2zo3yX2rX2vX4dp4i04h02qp2Wo2e02.X5bp5YX5UX2do2zs5Gu2rq4c03Z02.r3Do3qo4Op4D04PX44o0Br5qo4AX4N03vr32r5wp5t05rp63X4So3Mt5o04Gq4VX2J033t4Lo58o6FX45s5*04T046z5JX5zX45p42s6EX2Oz5OX6NX2bs3Mq3uo4mX5l03w046p42p3Dr3r03vp2gt3ur6L06ZX3kp2jq4Jt69q3cp42r4Lp4Ls42o6P04Hp6OX3Es6gp6gr6Is6606Jt6lX4R065X6M04To4Jp6yo6rs6Io6Bo3Yr64r74X6S05ro5qp68z6R06hp4rX4eq36X3Yp4nX5lo4pX7H02.p2gq7QX4ep6eX4es36q7L06Yp4co5T039o4rz1wu0Bm3Fn36u33y3M*2u02G02Bu2Pr00.0Jm5Dn2Rp7hX2pq3cu7l.0Jr7Wo5Vp7wX2pp6Lp2zq5Vq2go6W02Np3EX2ro5Vr5S07VX5RX7rX5ao5Q033X5bo7yX6XX0Sz30p6Po60o3MX3Eq3Ur5.X8307PX8E04I000r64o6go8N02.x3Ho5vX67X8JX5y000w6.06sX73X4OX71p3Mr76X2pX7Zp6qX3Er6rp5AX6*o8j06h033x69r7vX7Bo8K08SX45r8rX8k02Nr4CX78X3qr0Bx6mX8f04Tr38x69u8oX4Jo7ir8MX8wX8*X9104Ho62X4J*9506Jp75X94z8HX8ao8a03vs9Do8Y08P09Uo6G05sX96x9Ko8TX4UX3K046x8uX4do7ZX2ip7x02.t3yr7*X4d02.q3ys4Lr7J08Pp0By9Kp9qo6Wo8Ep3Ex69o2Ps2Bw2Mn4tm8S14wn58v2FnA0r1Jq2Rn7iX3QX2fn7ju2Po2B.9.n58r2By7m15H02CnA800Ao5An2Bn2Pw9zX71yAHu84X5m05io8BX0A09tX9g08204uX6Mp2Wp5do86X44p5kp2HX9f02jo2pr5eq7Rp8Oo8do8No9To7kXAV08Ro32w9Kr6B05rX8Op6yu7704M08y09LX5u02Xz30o8rp3MvAKX9Tp9.X6*v8iX8g09HX3Yy9A0B0s6aX38qAoX9E046vB7070rAh04Gp4Bq38r5wX4y03Zr2Jq96r6j07XX8S033qBJ08so3UvBMo4L.AvX8zXBCoAwyB5X71o41X9GqBbp9a0A*oB909VX8BwBg0AtX4Oo81o8VpAr0Bv0B.o36r4Do96o2FzB4X45X8D064vBxX5hp2RXAb02qo8Eo2mo8Qq9uX3Kp6uX7SXCJoAkXCE0AlX6Xq69.ADs4tx0J.CQX0fx7c04Gy7q03OoA7X8*.9*XBRX9sX4r.0JnACX0GX7Zo6DnAKo7Cn40.C40C0X2bXATq2gr7ioCAp5hq5Z04Go9iX9hX83q8909UX38X2zv2up4Rp7OX9cpAGzC4oCc0B*X3Ev58pBFoCo0D9oAqX0Bu81X8Z02.uBB061X9cX3EyBoXBlX7BvBroDBX9GoBk05KX9F0700DJXD8o5CXC502QzCnp8UX44r6Ct3up2wrDTXBKpB6XDWo3prDGXD8p2gs3UX0BzDO0B0o3UzDS0BD04HsDCX45vBeXBEXD8s6vXD00Dc1AIo9I0B100DX7Oo7DX4Js8I07CX9cwC809UuDKo9Io3Y.Dtr9qp5ew4Y08RX4aX6Xs6rXC6X4SvEFq9kX4Sq5ezAR031r4to2X10MsB0*0HoEbu1.uB9oA906DX4dr6c*0Hu4.00EX6CmCg08e04sX4zq7uXCJpAg0Bs07R0DuX7O*0HyEnqBpp7A05x0B0r42*E*q9O06Js6ro6wX2lqBT*0PqF7o28r3Xq9BX71rF5*9sqFEXE9XBKoFA047XEt1E5XD5XBwX9co8Vs81s4tyEnrELX6XpFZoCiX2isEys58*0HrEn*51055uCVs2PqAZx4t*Ef031n2MoAuX0f*Fos5FX5c05W05i04Gr4LX2b*0H.FtnDwo8joFIX9J*0Gp0JsAOX9Gp6nXG4002pG6nCAq6iXBZoAFXGA*G0X7Op9WsGG06J*0H*GI0BDoC2X2W0Bso38*GNpGCX310EO06Yq3yuCrX4lX2i*F*pCVu2P*0Hm2C10MuGf*7dt0Jt2Pp2It2puACn2gxCRnGln40n7snANnFr00Cx2D1EcnCZ04GXCy046XES0BY03crFzp8koAVp0i1GzX2On8X0DXo8VoEA08RrDe05xoDF00CwGV0AJX8qXDkXEBXDP0F3p6r*2U10MrFln5qqDUo3Jr9GrF9XBK*HSu5zn2sn870BPXGQ046sGLoAwpHR*2H13*n5MnDqXHM0B.pC106zX8BoAp0EDoGT*Hlu2YnADX2ivAXo8lXCMXGE0Eop6Mo5ToH602hoI500K10MmAZz4G*EmnCfn00P2iTGWq36mEd*DGnIEP00c2ATIF037oCUsILc0BfIO*0HpGhu0Bn2DPIMo00TIOw7jXIKX7dnG.*F*nIR000fIOzGuXIdXHAX0f.GyuIWnIFcINPDsX8A0ExXH2pCvq8Ko83oH700CzIn02DnIpf0BPIr0I70HCXFUXDIp79XDIoByXHw07mnIRoIZPJ2qHWXBKsDz046*If10MnIXcIh0IiXHppDzrDj0BcX4E*3QnJCTJN0Hf0E7o3eXFM0JR0JI*JT1JKnJ00JVqA.oJgX6HXB2oHro4t.I.nJLoJD02QX6*pCG08Po9w0Es06JXH2o36*0HzJmnIp0IhP94X2HpFXoJUPBOx2.*E*oIgfIOv4tv311JdPIYTIOtJx*2HsK7PE.*9ssK30IJ02QsIRfJ10IC*3QsJUo0fpIV0I*P29TBZ*GNsILTEioCjX4zo0Jp2DTJ2oKZ00Cy2A10M.EqtAm0Fwp7iqIw0AU0C*pCUo0Jx2IpCI0JapJ70DE0J40Kfo0JwAP08cXG8XJQpJH*K610MxKr09jXAWpDi0FP0JXXJS059oCSnBH0Dxs9WpL1*9soCfo6GoHgsECoJkXKa1JKoENoFZpC9XJZpKmqCGoKp1Khq4twFo.KO08cpCV*1k*071041Le*Ldw0A0jH5

Also, if people would like, I'll post some memory cells tomorrow. For this thread please put up CODES, images are optional.

[endy123]

main issue is that mercury can fly out of or freeze within the component.

[Alonso]

Make a failsafe.

[Mad Cow 483]

I'll get to working on one... Anyways, does anyone here have an idea for a thunder-toggled infinitely reusable laser transistor? Basically what my transistor is, except in reverse.

[Mad Cow 483]

An idea is an improvement.

[Deleted]

Jul 11, 2011 11:10:14 GMT Mad Cow 483 said:

Thanks mdog. If you could put your style of gate here (like the actual switches, not the whole machine) that would be much appreciated.

Here is the circuitry that HisCarlness cleaned up for me a while ago. This is just the code. It contains good explanations of what each piece does. These are very handy if you are new to thunder tech.

0012000000100*02102*01*03*06*05*01w00q00004000v00u01u0B*0200Du0F00Cv0E10E00Ku0J*0Hv0Lu0G*0Bv0Q002n00X0Bq0V000r0Xo0Vr0SX00p0Bs0Xp0Vt0BX00s0R00cp0J.00n0XX0Bp0Vo0WX0Bo0Xq0Xt0eX0p00Xr0rX0iu0c10M.0lX0g00cX0*p0ZX0Br0vX13X0nX0*r0w000t0X*0Hm0yu0B.0.00t01Fo1400YX0b01Hq0X.0EX0A01000AX0c01P01I01Rq0Xv0Vs16s0qX1X01So0a01Pp0ps15p1c000o1V002o0Jz1Ep1201fX1Yo1Hr0tp1Yp18q1gu1M01Ro1Fp0to0up0m01Ov1Ho0sX1Xo0uo1.01Op1Hp1uX0Bt1H.1f10Mz0.r1pX0*o1nX1501lr0uq0Xz1sq1ko1zX11X1601Fv2J019X1YX2Lo0Xs2Nr1kr1kt2Nx27u0Bz1jX2A02TX2Dr1kp1qX2Xu21o0Xu1xp1FX2Lv2Nt1kX2QX0dX2Do2Nu21r1Lo0Jy1Er1xq0o01l01Rt1GX2Dp18.1Mq2m010p1mX3201Oo1UX0h010s33o2IX1Np2Js2Lu1go1g*2W000y2tX17X1Xr0bp2Lr1Fq3DX0Bw1so2a02wp1xo1ao3501Oq2fX2LX1Ys2Np18u21p0Xm1C000.00z18o3Qo2i03RX1Yv18p3W01OX3YX2oX1wX3p02O01R*3F.3fX20X2Lp3MX1f01HX1Jq1Ft1kq2vo3bX2Lq3lX2Lt18*3F*3vq44X1Qq3.01SX36q3B02wo2pX4BX2Dq0Vp1eo2Vo0Jm0lP0Y00Cq1910Mm4O00cP3Ox00P00x1Dw4Nn4Wf00h00T3zw4XP4cw4Y14Sn4Wc00J1fP3OX4Pw1kv0sn2Gn41n3Us0Xy2RX0Bu4Ov4cP0D03ew4ZT0cJ4c000w18v1kn2wz1Eo1Ln4t00cn2gn4co25T5AP4gu0Bm4Or4l01Rp4K01lp0*X3zs2lo3Xo3xX0gp1Xp25X1Qp0mo1d05S01b00hX5J010o2BX0go5P01Ip5No2Kp0qn4WT5A019T4W010r0So4sX25n0en3904GX25p0On3gX30o42X3po32o33p5pp23X1*02wr12o5yX15o38X3zo5v060X5uX5*o1Fn4OT0nE0nT6C00cT5jp2Go0ro5oX3rw3d*29022X6201ZX30p2cX33v2y01Or6R03j01Sp6Vo6Tr56o6Tp0Xn6B00cE25E6DP2Ls3SX4Io5Z06Np5M05I05c06No6kX3zq5Hp4tp6mp2ls6qo0po0*s2vq6sX5a05710M*1Eq6YX2Zr73034X6QX1Qs6bX3rp12r2zX2Zo6Ts6.06Wo1an6dp00E6f06FP6hX65X68o7DX2mo33r6To6101lo6Oo5.07U05q07Yo39o64o3ro2yo1mn5sX3w07606Wr75p75s7Wo1Fr75v7907GX1Jo75r7IE3zr7Jo6g010q5N07hp7jX7P01Ss7z05W067081p5po84X7701Sv6Yn7f01tX6806UX7Po7b07Yp7lX3LX7.p8G07Xo6ZX8Bo66p6cn5g00AE1900AT6GX2n05k07p076r7.s7Fo7op0Vq3op7xo8508FX74X2nq7Dn7fr0pp16o2K06P07hX6rX3zX69X1Qt7Fp14o8mp5Hs24o6kp7Tr8tX8q03101fn8P*4w01Os1Fs7oo56p4nX7VX86o3Uo7SX6408Wp2C07yX5f10Mr1Rw1Rs4UT0GT8T083X7O05qo8IX1Yr9C08KX9Po8Go9Do8ep7a08no7To1Gn0Jr9Kq8b019p5go2XT4k094X8k01Po2Ko5e06N07Xr8.o8yX8l01ks7FX3zp9ZX8*o8x04to6x08810Mt3GP1fT02P3zv1Ex53n3co1Uo0JuA2n0l050n0so9f.1Ey0.q3Oo0O*0SuAJ00I10Mw82m1Eu0.o1DX9SX5nXAT00A.0JwAOn4oX0nn1Ht1Et72.0Jn1EX7No7xp5Ho5Hq5Uq5Hr5HX5Xp1o06oo9v01RX5RX1Qo8wX5Zp5bX30X5Jo5TXAmX16p0BxA7XAU.1Ew2wt3FnAQ09U09EXASo6Or9bX86r73o3rr6Vr8NX99o8r06Po9R050o0vp55X0qrAdn2408Ws8Jp3ZXBBX8YXAS07iX8dXBJpBS09G091XBXp9lp2yp6mt9r05L05VpAnt9vo9*X2noBdX5Np9lsAnq8.090qAk10Mn2Y0Bap7Fr2yr7AX2mrBz02ws3hX8H08Vo80pBZp7B0Bb09pX9AXBG082p85oBHo9Tp9W07ZX7tX990Bao7mXBJo96X441BunBPo95XBVp9806WpCSo7EXBVoCK09k0B708C0CTX1YtAe06i0CYo2hXBT081o7os5pz80r9BX30sCXo56sCM00TnBvp9Zo8LoB9X8D0BW0BQXCWXC2p9ToBF0Cao7d0CTn1xX5Zr16q5bp3TX7MpC906Nq2Ap5QqBJr4tq2Zp6.r7CpBn08X090rBOXAgX8*p6.o0uX8ppBm00wo9osAnp6aX8po5bs0wp9to2vXDGX630DT0DVX5DnD409uX8MX8UpCm0CZoCV06XXDEX7C06WsCSsDW07hw0r1ANyBPpCtXCIp8JoBA07ho66oCoX7N0E0XCH0CGo5x0CZr80oD*p6VqAWy3ypBl07pp7xsBgXDco9sp5Qo9s05Y09.09m01v0BqX78XA.05VqDb0BsXAr0ALs3cu0X171*1Xq0Bn1s1Ea0AMu0iv0T*0Pu0OzDi03GXAZXEcn2Tp6RoAI171z2cn0voEoX2Dy3FtEl06l05VrAl02vpAnrAhX8sX9yX8moAkX1QX6*qBk07XsAjXAsX7xq2lpDYo0JtExpClXCDX8g0Cxo66X3X0D1XE3oD2o66rE1XFMp3y0CG06UoFFyDnpBZoCUXC.X33XFJoCqpCXp75X5Xr9YX13oFWXBo08Vr7zp8UoFeXFb02E08npC6oBPrBy02wXFgX64rFi10znAiX36uAt010t0gs0StCQ02wv7kXB*r9TX3kXBU09prDnXFw0FUv3FzCsX2DsFTX4JX1DtEAXFcX8BpBZrGL0GBXCLX7xr8aX7M0FUpEt14hP1QP4Pp2SX2bXFMr18t0stEUpF.pDSX77pDSo5HtEUoED05Wo8vXEWpFo0EV0CfXDC034o4ZP5905gp9Nr3Qr3UXGJ03exEY10My5gP0BP93P4wTGyX1XsDkXFB03VX1er4XX1Nn0Ty4cp0BT1QTGZXB*t2Jr2FX0im0A1H2PGYpH4p93p2Nq56rEBX0u*1Bq1inBPq430CBX0ur0ET1fJ5js4X1FzX4I01StBxX4As1Yz19PHeP0dx0ky4Wo4jP5Qp2npHcXBVX8RX36o1rtHqTHo09O05GXC2o6zXHM03srGe10zyHrJ5jrGa082oCg01TX5Q08nq4Ru1DyI8P2DuIAoICqGdX2DtIG03ey59JI9X4uXBDX9Dq0wsH800EtAAX4Pn1E*1kxAbn4pX4uo3cnIfPH*r2gXIT06WXI4t2MtIY01Rm8FpId00DpIfTIhXIjoBZXIlX0uuIOu45pDJpI3pAw08CpHt06p0Bhq7FsI*03noEEpF8qGg03n03so24p5b*H3oH90I10JHpDeqIM01RuIyX7gp75o5zXFpp450Do0E60B6o8L08f0JUXBHpD*oCMoIS0DmXDgPHG02OpHu05WpHv0IDsCz00AtIYrIEoDtv8eX1JrDtp6VsGzXDApE9XJGoDlpEkm4OqHp10Mu45qESpDiq9DX8h0Jh0CJX5NqBVrFdX3J0Cbp16rG90KB01Ow3G1J*XJNXFnXCRXK30JSvJP0Jc01SrK90C0XGUo56vJsX1YwKGuJbqDy0E40JToKU09qXDjo7.oFQXDzXE7oKQo6TvKYp1kwKW01MrJ8XGpXDX0KNtEUsEH0Cbo6ksJ6p9zXK1XFkqBrrEPXKyoJbr6J0KR0ExqL3m54X0ByL602wy3Fr1O.1EnKPX3On23n1ku1Ot54o1ky3Fq1OxAH01fr18x3H0EVpAy0E*XESsBhtKwX6*oLS0LXoFApAv090p5UrBPX5O05UvEwyFYXI2XFOXGMoJkoFPXLjo8EoJOXCwoJRpCeo66uLgX3rsE20KZvBEXDqoCPXGNXKJ0JWoCXX5XoKNuLu0DopKC0FrXGtsLy0JSoL.0KZp0tq9DpMAXM3X6OuLAn0Xx7Yz21tDty2Un2Tn2vuLPsFZ07hsGOXLzXBX0MDXKeXDp0DhoM4o9dnMKo1kzENt3UyMOX1YqA6nDxXGM0MX0M809aX86pJZXMYoMFX2ZsMCo1Fu3Fp5UoLV076pJ2p6TX5brE.XDR06nq1xt5Up0mpN0XF60J6tF1pAx0BiX9oXAu0J707XtF5pBpXDOXM9XMtXN2pMCX9wXEI07TXKy0CYpD2X3Co0Jp5voCIoMApBC0FKXLj07ht1.o9XXLioCv0E4oCArGPoNW060yNVXEGX2P0GQ0I0oFtXNL0B3XIEp8evFH0MmoDnoMCp7myNm09pp9foDH0K5p79rB*pO1XIEtCEXER07prMV0OA0L3oNzX3LyN*pCqoMeXBJvJv03st9TsLh00DXL*0L3s6VpORX0qoEkp1Em1Es2xoDvuDN09Q0GVXOBoD0pONo66tHaoKNrNwpKNoNyXMWp1GoKlnIfX0dqAEX0W10MpMkoELoGkX6j041XERoGoo5Zo8Ut9CoDYXNJ090tDP0JD0Gs0NC0O0X4Ip6moJ6oN1oAwoEEqNA02Oo6q06np5UsMxXNMXO.09poN5XESoOvoI.X2PoD719IyJa0JX0Nh0KaXE7rMAoNkoLm01IoFI076oMs07XX4A0Na0Jco33q9dy97XDc08WoO80PjpBRXChpKQr7oXG7XOBp75q0JsElpOlXB.0M1XMZoGqoOE0JSpFsXFa0Ik0MnrPs08Wq9dr0etC4X3o0PpXChoQ3XP*0Q5XQFpQAXPw0MBXDAqQCX0GsKQpLp0NxX5*rPaXE3pPcrQ4oC*XE3qJrX7cX9VX30q0OqJ9XHAp12p3OrJApMkp9tXOPpEUr5vpEK0Oxp6msQm0HBoEEo18sQq0PG0ETXF30Pf03d.JHoFR0JBpICmOO00Ao6cp0ep0JoMnoM*06Wy2*00Yo3cp0rpQgX1NoCqXKA*0Hy0l10zqKiX6kq1sw0D1ROX8ro6OpBPmRRvRIo6w0Q.0P7rQO0PBX2mpPAXFBp0WvPmX7Q0JWXFSXPeo1uvRi0K608o0KOo0svRop73rNooD809GpRh1PUXDAsCesFXvAAn1KXArtJgs0ttG20JlXRU0JWpQZXDGvS1X8p0NpuGI01Sq0XwQzXPS0RaqBroQyp3cvGvrRl082q2qXGcX0ut2gtMKx4zo00fGwpICoS203sv1xr18m1sxHguJdoSXPNO0FUrJKpF10HB01Ps0xpGvcSXc9NpCerJKrC6q1qu4Wp13xSWhSYXFMoSatBZq18yHnp13PGwrSf000m4Tp9NqLXp1HuJVpT1t59PHR0H300YxSO0CaqG0vHk0HBsMit9h0JeTP90K5qHL0Sn0Hbq1W0Fqs2d012s30rDZ050pAAyTOpHHoSrX3q0EMqOx0LHXSDo5t03sq7WXS.XQdoTfp1UpTbPHQ0Sw0IBX3rXTYXCcXF4X7gtSapLsXLlXTy08nr3dr3v01sr2l07hr2UXU1tSR08nX9Dr5pX30.U3zIi0Mo07YrTX0ObqTUo9FXTn01lsDj03jp4up0FXHx0T6nSHnAY01Sy1kmIcXJbo2GpUGr6VXJkt3itU80LD03ioHV0Q8oTApN*qOo01fp0ZnLGoUGoUbXIuXUNrUgpCeqUgr4CpT*0R2XUuXUR1OsXDQo9lrPFp5UtKtoLZ0CapNH0V7sBhpPO03npJgXF7X4BpFTp3yoMiX46X9*oTktStXQfXVOo7xv3dpDeoQW0R0oD.XS8o7rXLk0JWrMqoCIuMq03VpAtpJio1aq3N0DoqULX4Pu8Jr5prTZqBL1V10U.0FN0BarQc0DrXJkvNwoRP03PXBB.UmXQ0r80s8ZXMpXRJXDI0CiXV*XGR07huRu00Y.V.07hv80vOjXDArHUX7.vOKpLGXWH.WBpVTpD*rQaoMr0Tu0VrpWMXRmXE3uE9oLFXQFrAGp5m0G5X8UvL8zWLXLTX7NpBfXKpoELpGlXW4sGfXWe08WXKqX5*XDdXFkpCBnLJn1UqWZs1UnMe1OsoUWnIon2Rp5.pV3XN8XSipF50C80MyX3ztQhp9*qG0pV9XQn0Fvo5buF8rPC0Bi1WyXEmq0qqUnsWRXVYoKNqLdoCAoCFoQToLwp2NoBAo33uQYXPep0Z1Rz08nsXTX6SX5XXW7p1HsG4o7WrMSoCqu7orE91XarDfrB*oAnsDhX7PrNLpDNqASrWkXKg02wuXlXXs0LAyXgXKDoDnrXr0Cy01yXW7r4rXQd0RpuXz0BQ1KH02wqAGn1AX0GXAUrOI0IrXOZoXc0JWsMk0E8XRjoKYoWS0UHoD0oUGpYRo1G1YCoR8XYG019o2NzSHpV9qAtoU1pOv0P80LbXD90NFqWloNI090sYl0NZXJgpCKoGop0n10MoPFXVFpFMqBjXF2oKzXX3X5TpK*0XD0P7qXGqPFmR6q1OyAE10MXQe07poQNpXUXMY0UIXKd0PWpC1oCInR6m7w0U4t3FXOPoOk0U4rONr1xsVtoXhXB*sIb*0JXZOX4PoPnpDD0Uho8LpM.XBYXW30MnpO604X*ZX0QU081sWG0CarVX0Wa0Q10RprOKx03uU1oCqsQWoY8oQa0Hb0PY0PXoOeXE3tY5081rWZo2go0sp2RnUYnSHX5R1YuXAroYs0NSXYz0ENpEQoGSXWh0OSo6krWl0EMX5*m9KX5fX1YuB3pa8X1Ym1Ev2c10Mq81x4D0Z1oPKp3qpLRXN2tX6oKop6mqQlX3IpaiX8*sXFXX2oYmpF1s0q14Ss9fyPd0PYo7RXXNXMloPcoNjXNbpNZrazXQVXYPX5w0VZXZEp4NyVxrMSpMArVxpG60DuXMZpYVXLi0MD14Syb8XWmoFurQAoFuoP5pRwtZipNYXMlpC6rQ603R1bIXJuXBVsONvbMXCnXKSX8UsPuXQHX30vEko0e1ANn1AoAipUnoDltLPpKkXJkpONpZD0RpoYTXbX0ODXQXXPZXbf0VsXb61bjX1Do41pUnyUVXDqpWj0R0qXqXP2pPQ0P7pZ1pBrpaj0SI0Ku06t0GQoaEsDf08K1Z90NkpP5oF5oDJXAf05Vtaq0PIXak0NFoGIo9loV4XLWXN8pW10Z2pVCpN6002XL7xZXoXYX7.rWEocj0Rcob0Xb30VI0Zrob10crXFIoCIy9fzT5XQJoZnrGT06WvFh02wwFf0RcpWE0KZsd0oCqzKmXQJpTKrc.o1asZiobUtbQXNorOHXZZXL*qPgod7yZkpCjXK8XW20Zqp8esPn0Wn0d3X33sZzpd6XDAzd80PNXJYXU00BwXax0ZrsGPpENoQTpXSXWT0VUXKhXIEy4qXEco1LtdMX5d0DfoDdqcDXEStc6oSMXQrXPosV7pdy0R0XXCod4XWo07XpL8qLCodq1H2s56u6UnF0Xao0cSXNJpX9XEWXe4pX80P7X2Xr0Jx81t2gp0vnZx0b50B6pdXoLoXcpoPV.0Y1Yuyb9XFJpZppWIXGAp1k*eXu0qyc80OCrbNXPxXX.obOXdI002rRAyZnoKjXbb0dU0Y4pDts1ArepXbSXdepdX0a0Xbvo6T*ef01fyc8oaEtWlpeGpDNo9opP5qBrxf2xLMpVnXG*qaAqM7p0m.S6o3E*9HuLEXKI0J3q3ip3UqThoQxXSTX2D*0HnRNufM08A0WQX7xX2jX7gqThsVN02w*0H.AWn3muICpICv21qfdXfT01S*fVneMn9fp6RpNe0bDqfHX0usIV0UO04XrTWXIWp3Qq5HzEhnVmX2ZXKAo1LXTx0aQ02xX2LyJSXU*0OaqBPyCrn4WqG*oC10JBoer0fYtfS0g901RxgB0SjXJQXJkugFT4UoI4oYNqQpX0*vVMXfwXfnq4srU6og307YX30nRSuEnPSXJT4X3AX9lq4Cr0ms15qVK0g8qVhrLGrICX32sUPoAnxgTq5jzHD0UiX2ZqUd082xgFP4Pzg.XUNoJRog*01Sx0TuA2pTEr8Jq6TqT9XL7uTrT3zT1QrVlXaw0RauhAyTFP1QvT5uhB03fxRAX1Nw5py5pxUWrMgX13nUW*3e1cMq3UrYF03Rohey6HX3Op5H.do0R6s1HyUWv2GXAR00EoZkqVBX2PpP10E.oG0oVCXY*0F.0Z2oPFrfrXRe0W50LXXhyXRg00jX2Lz1k.OWXAIX1Jza71cMtR3oOhXVJ0FNodm08WrVcoM20X5p2JoiIoPqnVrXCHpNBqG0X9n0BhohzphwXYw0da090oPFqEUqLd0Fv06nwF8whTqMWo5pvThvec0WQpiF0ieXELriloEu0BI0TuoCvoeUohLoE2oXxodiXE7qidoD0uPcvPzXZEoeho14pM0pOKriz0UB0CepbrX9Rp0qpMU0YO0RppgIvbCpbhXMZXMH0Cb01sp6VvhrXj3X8UrWJ0RBXWFXb6XTv0jAXXpXR.XEcpjEobLXf0XXw0KEp79q32rFJXjLo0trJbpjO1hcXdkoVTqYLoiEXE3rj8rYNpLhoeU06WnXM0jT0R6pj7XjRXNsoPqoOUX2DXjjXgAX86vih0NFpDypKJoYmoM*oQwXTjXb3pGjX4Apj6XSJqWjoD7X0GoYNrOiXiIpgIpjB0OaoYQX9PsQ4pYUX2Zv0JvBLX3Oq2gqiWXWq0EysKx0ZB0I1pkJ0EVo9soPMoF.o6yXMWqJ5XKp0gh0R6rKFqSUX0SsUV1EaXhUskxuEguALvEh*AK10MsExoUnwX4y7YsL2oho03epPzya9X7qXjDXKVnYI.U3yZ4XO9pcTqYypcQo5*qYv0LYXVFo0*qlIpN7olM0Jf0eKoi1tlBXcmrQTrbR0khoR3pkU0PWo2vrVcpgIoXX0K6o8mX6h1l3yVwX8BrDsXdPok2XQ2Xbc087XFJsPv0Dr1lnXX.rbUoX00lVpdBXenols0jypZirDF0VupM7og*r0d1lz08WvjJ07*XlD0dd0bw0ZlpkSo9FpjOXQLX6kwlY0jFo9Trlbom20ZloP00jzoKf0Z*pba0JIXmBu0dyaNpXAXEWoI30P3XTPpQupaNoaL08u0kgolgXe4oCQpDJqTZtALp6UrAL*1lq0drl0umy1Eev0To3eXAUt2ttAW*hXtAdyJAtOvpdsXkKXEWsQho17tb7XPtXOcXVWXckXeVXQVt0Jql4X2XXGHXBJs3QpCltn5XglpZbsccpOSqXv0E8tnD0CYr2MXiyXTw0NqX3LtnYoD0r8zXZGomVomZolgtnRo9otKsXaKXNPX8c0P8o6koIOvn003ev9d.9f*ks*Ei1m.umzu0qzi00RarTWwo2u7Fq18XHyX4EX1Nmf2nU4qOS0TgXSPvgZ0BaXFMtHTX0GqAdzTko2NXfa0a3qEkrgu07YtoJ0L9qoLXJnXJbXoOp3UteqXRvXg7r41rRAzo2oAnoe.wo2soN0gJXo8s0pq5DrPzzgeomA02w.oQXNopCetna002qoV0fYoIv0mDX7gsojpouXTfq1Aq0OPH6Pp500DxTkpHZX8*r1xvoGp18r40Xp2XoK171PHGPp6qhzrTWrfEsK4p1ap56X3e03NsL7qo2qpKX3I01gri0sESr5.sKKqgAqp4T4kop6pNr0R4XSDpBPwTkqEkq56qUA*0Hopco9hP93oIApoRpgIwpjXQFqplXIEri8*pcqHrT5joUcXSPX30uaA0TlXpvX8Uqpm*aru0GPpIoTD0XyX8RoZzoIispNXHJ081qpwsIW.4Uv0pt17pA9X2znWwXLE1pHT9LoHr0qC06Prg40qV*UgsgMqHa*4UcSqf00cSqPIEqka00DoWW00Dnk.0A4T0YPSirkRXqXo2NwoGsqaXqgX1Dp59h4chqxTX7XV20Q.p9ltag081XN2sfAXOwXcYXF2pFkoNro9ooidX6r1qSo4jfqUrpfXk40EOppiXTzXq6XrL0q40lAPqet5jtVSXXfXY8pWNXa*Xek0QGoZCX6OXFCXdb0XP0bVuq9T0APJ2qgnXpVqF.sqG02OslRXrLsJkwqL0rNpjIX2DvmSXQ7odSoYLrZTXXe0etoY3o1u1qSJSho0Gxh7XHJpM7rm7oQIrc5XArrey0O3X7.XGDpd2XWi1qSp5jm4evqu0bD0ZqrYApCSpevXbGpDloRCXpVpsE0OR1pHJs10T6xGxPpI0rqXrS0YSXbx0auoeQodHorY0S9XbcoPopDx1rDPEcxTDTH3Tqz0mapgmXaGqc6p3.or0XeF0Q.o3Io5bt8.pTftf60ma0221qSP3zn4eppIpA*xpcp0nx4Wr2Xxp4q0isIOsZMnheoTqXaVn4snVmn0k.tHX0SplC00UX9Sn4NzV6XiYpAnulS0m1XiYtanpiSXhJXi5pLcXoOoMP171yWO0ZHXMIXlZXnI0V8XBHrlhXjYoiGph8oeP11MtJbsL8oMKXn1nMKn0rn58XdVnrx0P6oa5XnE0jFpbF0jyoiLXntXtR1VpxqQ0hfXAUxOVpMhpbvpdFpmGpbTXC9rrWrW9rNwXk5060nN*rSLXTPscfXhuohxofapZ0XlQ04ConB0cKXcRp0mr5bqiTpNErtvXjd081u7nXDAvYAogKoYAXuOotsuPipe.poTpiN0kTXnH0dl0OarbuojwpXV07Yqlo0JHmBvobp0uv06WukP0u4XsAojqXE3sMuXhZ1VpuU6punX0uviqXuIXFJtvI0iZquk0YDXhZXnp0cGXGtpmmXFktdvpZe08CocJXWf0NFtvC00YnuQXW3pfvpM0riX0jGX3oqMZqdF0KOpGTrbKX5T*B2n3cs2r1VpqZzw4H0jzpebXbEXuipoDoThwvvwLMxOVsvsuPiojr0b.0vO0u6XNbomXobu0Kc0uxpv4ovbqumXTfvKmpvT0EF05Vs7TqvhpJ4XF3okeokgrDeXnq0Yi0iZXdIpkCXN2wKmo3t*Op1YuqMKvL2zc40hlXnMoaR0ffX0do0kzweXfXmAGX0WnUpXwk1J*zs*0wLXtUXSJtt1ohzXiUXJgowy0N3XQ*pMys48X7eX8UuIqvtPzwm0TgnhVXjlXXxrldXiIra.0seXby0U7XsdoiKX8Yo0OXx40cg03fn3Upe7XnM0C0nhmXL7XdVXruXOPrCqrsMXBVtQTv9uoZkXN2oXGrrBodspV5XTPqi3oLRpApqd*Xn9opVXPL0YdXO9o73pSPpuH0Nppl*XxXrKK0Cxpg0XZgp5psZisZNoNXXQbXfaoftomXpdjodcpnhoy5o8ErxD0ZF0w6oe.XjZ0x*XQFoQI0a4Xu3o7WplaXCnodr0i2ou70yQ0tm0i2rLwoFXXjV0yK0yTXmGvUD0iZoSZXrV0ybonjXb4oTBXxHpnPXcu0FUoD*sZN0DB0eRXjLpgep14rD60Z.r39rmN0Fqov7pdDXqGpM0oO2oU6qsuXuSXWrXwwXsxpmgpZ1sTKqYoX2AokE00hoySoPqrr.XlpXC2syl0UHsrvXkjoyMpyvXk00ypXM0XkNXxSsIOXw9XyhsYNod0ryj0eRoG6oy50PXrzdouuoyYXXxmY5q25txeokEo8mszbX9tpmq0EOXzsX8Hof9X8UXxrowRXn80l7XsxsWEpGSxZkx2Hq0vxZktREq9Kx4N.UW.IaX5DsAA*BM0T6tAWztT0Myp5Hv6ipzGpEPpwOokopFMXNEp2upkZzthoyFo6VuwBo.XXiOXb20dloCwr3dXCcn2UowfoQDXzQXluoWZpbJ0v80jMp9upZkoUWo0ZqGeXmfXW2qGtvjk0KOrFHrskX3YpUSptap6mrtWshx06nofPXkrpXB0wUXA*sd4pbCuG4pZpoYAszr00hp.pXyhowAXyhrFRoqXpjX0mQXCwund0v5plepkX0e*0lfXWPrc.p.o1cMoZU0w80yWoNN0ZrpXjX30wsB0aO0vR0UQ0TIXr50*iplP0J3XYqXkI0PNp*H0ysovArekrob0CZpvhobPt.gp0Zr*tpv1psNXNsXXxsbss.hqA*n2rX3Ar*tpv4rFHoRVXcyXrbrd4*0Pnci0mnXzw0P5sVCqkd0kk0f40cKp1A*vDu5Dp1A*4ur08104104104104104150qcK0

I REALLY need to start using more tech.
Personally, I think the counter could be a bit shorter. And I'm guessing that if there's a tenth dot of mercury in a digit counter for something, the dot goes down and adds on to the next counter?

[darkchaos10]

Jul 12, 2011 16:13:53 GMT Mad Cow 483 said:

I'll get to working on one... Anyways, does anyone here have an idea for a thunder-toggled infinitely reusable laser transistor? Basically what my transistor is, except in reverse.

VERY simple, all you need is a laser source, easily obtained with either virus ball or wheel.
10300000y200000000100*02102*01*03*06*05*01w00q00004000v00u01u0B*0200Du0F00Cv0E10E00Ku0J*0Hv0Lu0G*0Bv0Q00N10M*0Pu0O*0Su0X00I10V*0Y10b00au0R00e00Uu0fv0T*0W10dv0j*0cu0iu0Zv0m00g*0ku0o10lu0pu0v10u10xu0tu0z00h00**0s010*0n01200r*13*11*17*16*1901501Bv0qv1Du0wu0.*1801Cu1F014v1E10y01Ku1J*1Hv1Lu1G*1Av1Q01N11M*1Pu1O*1Su1X01I11V*1Y11b01au1R01e01Uu1fv1T*1W11dv1j*1cu1iu1Zv1m01g*1ku1o11lu1pu1Jq00x00P00p0Bo00n1y000.1x10Mr1xP0Bp1yp1.P1z000o20P27p0Bz22u0Br2401zP0BP27020o2A02G021x0Jr2Fp2Ko2PP2H02L.2D00Ax26029P2Ro2Vo2Vp1yo2Cx0J.2Fv00y2cx20v2e10Ms2Fn00z0Js2jz2lx20n2k10Mq2FP2R*2hu2Ex2Vm2pu0By00w00e00S0SP0Bn2w00*q1xT0A000m31q33029T0Bm31y2yT0Bt00T1.T39z0Jy3B000r3Ds3F10My3Hr3D02yP0Bw2t01xw3Dp20p3Nw20w3Qx3Hs3UP3Py0Jx3Bo2ET3PP3Z13Lw3Dt3d02yy3Gw3Nm1*P3eu2xw3g03O03i10Mo37w20s1*12e00Ew0Jo3sP0Bs3uy0Bu2y10Mz3Bq0BT3hs3.03w10Mw3OT1zc38p44n01y3*w0Jw2yc0D01*o01q00J0A134u40u2bP3zn4IJ4Kq4D141x3tn4Pq4I046u4N000s3uq4Jq4Vu4M02kx4T10AJ4Q04W04dP4O14fq4bw0Jz2Fs4ZJ4gu4cz4nn4U14Lw4mx4eq4a14t14SP4jq4wq4Ru4Xp1*91.14k14xu4Xs4oq4l14y04Yn4sq4*04i059153q5Bz4r15E04hz5Gq4.05Ix4ey5Fx5M05LP4jy5NP5Q05P03qu55o3Np4qx20r29X5Ww4uP3zo5a158w3Qz2Fw5fx3Vy1v11u15ku1tu5m01h05o*1s05p*1n05r01r*5s*5q*5w*5v*5y05u05.v1qv60u5ju5n*5x05*u6205tv6115l067u66*64v68u63*5zv6D06A169*6Cu6B*6Fu6K06516I*6L16O06Nu6E06R06Hu6Sv6G*1k*0710416Z*6Yw0A0aN7
another way to do it would be to use electrified metal to redirect laser to a different direction.

[Mad Cow 483]

Cool. With these two things we'll actually be able to have a real laser/electric machine. The reason for this being to use laser RAM, which is more developed than any kind of thunder re-writable memory.

I will post some of my various types of thunder memory cells today. If you need to see laser memory cells/gates I'm pretty sure micro-farad makes them all the time on his laser computing thread.

[Mad Cow 483]

Those, and ones used in the "game system" uploads. I made a different type of cell for that.