schemd engineering vectors

01 / DIGITAL DOMAIN

Interactive ripple-carry adder

Toggle the seventeen input nodes and observe a deterministic least-significant-bit-first carry propagation pass across eight full-adder stages.

A
10100101
B
00111010
Σ
011011111
FULL SVG66 nodes89 traces
Interactive 8-bit ripple-carry adder66 components and 89 connections.A0A0B0B0XPRE0A0 xor B0ANDAB0A0 and B0SUM0S0ANDC0C0 termCARRY0C1S0S0A1A1B1B1XPRE1A1 xor B1ANDAB1A1 and B1SUM1S1ANDC1C1 termCARRY1C2S1S1A2A2B2B2XPRE2A2 xor B2ANDAB2A2 and B2SUM2S2ANDC2C2 termCARRY2C3S2S2A3A3B3B3XPRE3A3 xor B3ANDAB3A3 and B3SUM3S3ANDC3C3 termCARRY3C4S3S3A4A4B4B4XPRE4A4 xor B4ANDAB4A4 and B4SUM4S4ANDC4C4 termCARRY4C5S4S4A5A5B5B5XPRE5A5 xor B5ANDAB5A5 and B5SUM5S5ANDC5C5 termCARRY5C6S5S5A6A6B6B6XPRE6A6 xor B6ANDAB6A6 and B6SUM6S6ANDC6C6 termCARRY6C7S6S6A7A7B7B7XPRE7A7 xor B7ANDAB7A7 and B7SUM7S7ANDC7C7 termCARRY7C8S7S7CINCinCOUTCout
Interactive 8-bit ripple-carry adder
SCHEMD / LAB-SCOPE 01 ACQUIRE
Adder output logic waveformdigital waveform at 15 HzCH A · digital15 Hz
TIME / DIV
VOLTS / DIV
WAVE DIG
CH A1 MΩ

Click or keyboard-activate any A0…A7, B0…B7, or CIN node.

165 + 58 + 0223carry 0

02 / QUANTUM DOMAIN

Bell-state entanglement visualizer

Step a two-qubit register through superposition, controlled entanglement, and a deterministic visualization of the |00> and |11> measurement branches.

Step
1/3
Register
|00⟩
Measured
FULL SVGInitialize
Bell-state entanglement path6 components and 5 connections.Q0|0>q0Q1|0>q1H1Hq0CXEntangleM0P00 = 50%M1P11 = 50%
Bell-state entanglement path
MEASUREMENT PROBABILITY|00⟩100%|11⟩0%Both qubits begin in the computational zero basis.

Hover or focus H1, CX, M0, or M1 for operator telemetry.

03 / ANALOG DOMAIN

RC low-pass frequency sweep

Sweep five decades of input frequency while the client derives cutoff, gain, and output amplitude from the canonical first-order transfer function.

Cutoff
159 Hz
Gain
84.7%
Vout
4.23 V
FULL SVGRC = 1 ms
RC low-pass frequency sweep5 components and 4 connections.VINVinR1R1 = 10 kΩC1C1 = 100 nFVOUTVoutGNDSignal ground
RC low-pass frequency sweep
SCHEMD / LAB-SCOPE 01 ACQUIRE
RC low-pass output waveformsine waveform at 100 HzCH A · sine100 Hz
TIME / DIV
VOLTS / DIV
WAVE SIN
CH A1 MΩ
R
10 kΩ
C
100 nF
Phase
-32.1°
Attenuation
-1.45 dB

04 / MIXED-SIGNAL DOMAIN

NE555 astable timing laboratory

Inspect threshold charging, discharge timing, duty cycle, and a current-limited LED load around a complete eight-pin NE555 timer model.

Frequency
1.39 Hz
Duty
54.8%
Capacitor
1.67 V
FULL SVGchargingOUT 1
NE555 astable oscillator and LED load8 components and 13 connections.VCC+5V railR1R1 = 10 kΩR2R2 = 47 kΩC1C1 = 10 \muFGNDTRIGTHRESHCTRLVCCDISCHOUTRESETNE555U1NE555ROUTRLED = 330 ΩLED1Pulse LEDGNDSignal ground
NE555 astable oscillator and LED load
SCHEMD / LAB-SCOPE 01 ACQUIRE
NE555 output square wavesquare waveform at 1.39 HzCH A · square1.39 Hz
TIME / DIV
VOLTS / DIV
WAVE SQU
CH A1 MΩ

05 / ADVANCED QUANTUM DOMAIN

Quantum state teleportation network

Trace an arbitrary message qubit through Bell-pair preparation, joint measurement, two classical feed-forward channels, and Pauli recovery.

Step
1/5
Input
α 0.87 / β 0.50
Fidelity
FULL SVGInitializemZ 0 / mX 0
Three-qubit quantum teleportation network12 components and 13 connections.PSI|α,β>AANC0|0>AliceANC1|0>BobHENTHBellCXENTBell pairCXMSGBell encodeHMSGHmessageMZMeasure mZMXMeasure mXX recoverymX[[0,1],[1,0]]XRECX recoveryZ recoverymZ[[1,0],[0,-1]]ZRECZ recoveryOUT|α,β>Bob
Three-qubit quantum teleportation network