可执行验证系统
Executable Verification System
零知识学术验证(ZKAV)
Zero-Knowledge Academic Verification (ZKAV)
SGT Zero-Knowledge Academic Verification
SGT Zero-Knowledge Academic Verification
ZKAV 论文(剑桥开放 Engage 预印本):剑桥 DOI 10.33774/coe-2026-gl5pv
ZKAV paper (Cambridge Open Engage preprint): Cambridge DOI 10.33774/coe-2026-gl5pv
核心目的:为科研机构提供一种直接验证 SGT 理论有效性的方法。
ZKAV 是业内首个提出并实现的跨理论任务式学术验证机制。科研机构提出具体物理问题并发起验证请求,发送至指定邮箱 zhijundi@qq.com。SGT 团队在不公开内部理论推导结构的前提下独立完成全部计算,并交付最终可观测结果。
科研机构对交付结果进行独立复算与对比验证,从而判断 SGT 理论有效性及其与现有理论之间的结构性差异。
Core purpose: Provide research institutions with a direct method to verify the validity of SGT.
ZKAV is the first proposed and implemented cross-theory task-based academic verification mechanism in the field. An institution submits a concrete physics problem to the designated mailbox zhijundi@qq.com. The SGT team completes all computations independently without disclosing internal derivation structure, and delivers final observable outputs.
The institution independently reproduces and benchmarks the delivered results, thereby assessing SGT validity and structural differences from existing theories.
SGT Solver — 在线数值验证
SGT Solver — Online Numerical Verification
另一种验证交流方案:除邮件任务式 ZKAV 外,SGT 还提供面向公众的在线数值求解器——输入物理参数,即时获取 SGT 与 GR 的并排对比,无需等待任务排期。
Blackhole 求解器完全公开;Orbit / Gravity 求解器面向学术机构开放测试码。Solver 与 ZKAV 共用同一计算引擎,ZKAV 邮件提交的任务亦由该引擎完成——确保网页结果与任务交付来自同一套代码。
Another verification pathway: Beyond email-based ZKAV tasks, SGT offers a public online numerical solver — enter physical parameters and receive instant side-by-side SGT vs GR comparisons, without waiting for task scheduling.
The Blackhole solver is fully open; Orbit and Gravity solvers require institutional test tokens. Solver shares the same computation engine as ZKAV — tasks submitted by email are computed on this same backend, ensuring web and delivery outputs come from identical code.
一、任务流程
I. Task Workflow
ZKAV 采用完整闭环流程,全过程形成可追溯时间戳任务链:
ZKAV follows a closed-loop workflow with a fully traceable, timestamped task chain:
- 任务发起
- 任务确认
- 独立计算
- 结果交付
- 发起方验算
- 验算回执
- Task submission
- Task confirmation
- Independent computation
- Result delivery
- Institution verification
- Verification receipt
二、核心特点
II. Core Features
- 业内首个跨理论任务式验证机制
- 不依赖理论内部推导公开
- 以可复算结果作为唯一对比标准
- 全流程可追溯、可记录、可验算
- First cross-theory task-based verification mechanism in the field
- No requirement to disclose internal theoretical derivations
- Reproducible outputs as the sole comparison standard
- Full workflow: traceable, recorded, and verifiable
三、机制目的
III. Purpose
ZKAV 用于为科研机构提供一种低门槛、高可验证性的方式,在不改变自身理论体系的前提下,对 SGT 理论有效性进行独立验证与结构性对比分析。
ZKAV offers research institutions a low-barrier, highly verifiable path to independently validate SGT and perform structural comparison — without altering their own theoretical frameworks.
四、发起邮件模板(标准格式)
IV. Task Submission Email Template
发送至:zhijundi@qq.com(QQ 邮箱由腾讯官方运营,往来信件记录无法伪造,具有确权与时间戳优势,故 ZKAV 任务统一使用该邮箱接收。)
Send to: zhijundi@qq.com (QQ Mail is officially operated by Tencent; correspondence records cannot be forged and support provenance and timestamp verification — therefore ZKAV tasks are received via this mailbox.)
主题格式
SGT-ZKAV任务发起:[研究问题名称]
正文格式
你好SGT团队。 现就以下物理问题发起ZKAV验证任务: 1. 研究问题描述: (明确物理问题) 2. 输入参数与边界条件: (列出计算初始条件) 3. 期望输出结果: (如功率谱 / 频谱 / PBH丰度等) 4. 验证目标: (结构对比 / 数值复算 / 理论一致性验证) 请确认任务是否接受,并给出执行时间安排与交付形式。 此致 科研机构代表一键发起任务邮件
Subject line
SGT-ZKAV Task Request: [Research Question Title]
Email body
Dear SGT Team, We hereby submit the following ZKAV verification task: 1. Research question: (Describe the physics problem clearly) 2. Input parameters and boundary conditions: (List initial conditions for computation) 3. Expected outputs: (e.g. power spectrum / spectrum / PBH abundance, etc.) 4. Verification objective: (structural comparison / numerical reproduction / theoretical consistency check) Please confirm whether the task is accepted, and provide a schedule and delivery format. Sincerely, Institutional RepresentativeCompose Task Email
一句话总结:ZKAV 是业内首个基于任务发起邮箱接收、独立计算交付与结果复算回执的跨理论学术验证机制。
In summary: ZKAV is the first cross-theory academic verification mechanism built on task submission by email, independent computation and delivery, and verification receipts from the requesting institution.
开放倡议
建议将 ZKAV 推广为业内交流标准验证协议
原创新生理论常面临一道现实难题:完整论证链条过长,外部机构难以在合理成本下独立复现与检验。ZKAV 并非替代同行评审,而是为跨理论体系交流提供一条可执行、可记录、可溯源的补充通道——以标准化任务流为接口,以可复算结果为唯一对比标准,让理论有效性接受直接检验。
我们倡议科研机构、独立研究者与学术共同体参考、采用并完善 ZKAV 式任务验证协议,使其逐步成为业内跨理论学术交流的标准验证范式:为每一个原创新生理论,提供一种「以结果自证、以复算立信」的证明路径。
SGT 团队率先实现并开放该机制;欢迎各理论框架在同等规则下参与互验。
An Open Initiative
Toward ZKAV as a Standard Cross-Theory Verification Protocol
Emerging original theories often face a practical barrier: argument chains are long, and external institutions cannot independently reproduce or test them at reasonable cost. ZKAV does not replace peer review; it offers an executable, recorded and traceable supplementary channel for cross-theoretical exchange — standardized task workflows as the interface, reproducible outputs as the sole comparison standard, and direct empirical testing of theoretical validity.
We invite research institutions, independent theorists and the broader academic community to reference, adopt and refine ZKAV-style task verification, so that it may evolve into a standard verification paradigm for cross-theory academic communication: a path for every emerging original theory to demonstrate itself through results — prove by reproduction, establish trust by independent verification.
The SGT team has implemented and opened this mechanism first; all theoretical frameworks are welcome to participate in mutual verification under the same rules.