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Post by Mad Cow 483 on Jul 11, 2011 2:06:07 GMT
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.
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Post by mdog95 on Jul 11, 2011 4:13:10 GMT
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.
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Post by Mad Cow 483 on Jul 11, 2011 11:10:14 GMT
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
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Post by mdog95 on Jul 11, 2011 17:15:35 GMT
I'll get to putting the gates and stuff when I can, I guess...
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Post by mdog95 on Jul 11, 2011 17:57:15 GMT
My tech involves different stuff than yours...
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Post by Alonso on Jul 11, 2011 19:34:38 GMT
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.
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Post by Mad Cow 483 on Jul 11, 2011 20:28:41 GMT
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.
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Post by endy123 on Jul 11, 2011 22:29:08 GMT
main issue is that mercury can fly out of or freeze within the component.
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Post by Alonso on Jul 12, 2011 7:47:44 GMT
Make a failsafe.
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Post by Mad Cow 483 on Jul 12, 2011 16:13:53 GMT
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.
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Post by Mad Cow 483 on Jul 12, 2011 17:19:10 GMT
An idea is an improvement.
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Deleted
Deleted Member
Posts: 0
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Post by Deleted on Jul 13, 2011 9:25:58 GMT
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.0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0TlXpvX8Uqpm*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?
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Post by darkchaos10 on Jul 15, 2011 21:45:21 GMT
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.
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Post by Mad Cow 483 on Jul 16, 2011 12:32:34 GMT
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.
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Post by Mad Cow 483 on Jul 16, 2011 12:53:13 GMT
Those, and ones used in the "game system" uploads. I made a different type of cell for that.
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