check noise growth in some_work

2026-01-08 23:21:29 +01:00 · 2024-05-19 10:15:04 +05:30
parent 0d1bea64a7
commit 59820e9736
3 changed files with 145 additions and 41 deletions
--- a/src/bool/evaluator.rs
+++ b/src/bool/evaluator.rs
@@ -1829,7 +1829,7 @@ mod tests {
            RgswCiphertext, RgswCiphertextEvaluationDomain, SeededRgswCiphertext,
            SeededRlweCiphertext,
        },
-        utils::negacyclic_mul,
+        utils::{negacyclic_mul, Stats},
    };

    use super::*;
@@ -2258,41 +2258,6 @@ mod tests {
        }
    }

-    struct Stats<T> {
-        samples: Vec<T>,
-    }
-
-    impl<T: PrimInt + FromPrimitive + Debug> Stats<T>
-    where
-        // T: for<'a> Sum<&'a T>,
-        T: for<'a> std::iter::Sum<&'a T> + std::iter::Sum<T>,
-    {
-        fn mean(&self) -> f64 {
-            self.samples.iter().sum::<T>().to_f64().unwrap() / (self.samples.len() as f64)
-        }
-
-        fn std_dev(&self) -> f64 {
-            let mean = self.mean();
-
-            // diff
-            let diff_sq = self
-                .samples
-                .iter()
-                .map(|v| {
-                    let t = v.to_f64().unwrap() - mean;
-                    t * t
-                })
-                .into_iter()
-                .sum::<f64>();
-
-            (diff_sq / (self.samples.len() as f64)).sqrt()
-        }
-
-        fn add_more(&mut self, values: &[T]) {
-            self.samples.extend(values.iter());
-        }
-    }
-
    #[test]
    fn tester() {
        // pub(super) const TEST_MP_BOOL_PARAMS: BoolParameters<u64> =
--- a/src/rgsw.rs
+++ b/src/rgsw.rs
@@ -1557,7 +1557,7 @@ pub(crate) mod tests {
            RgswCiphertext, RgswCiphertextEvaluationDomain, RlweCiphertext, RlwePublicKey,
            SeededAutoKey, SeededRgswCiphertext, SeededRlweCiphertext, SeededRlwePublicKey,
        },
-        utils::{generate_prime, negacyclic_mul, TryConvertFrom},
+        utils::{generate_prime, negacyclic_mul, Stats, TryConvertFrom},
        Matrix, Secret,
    };

@@ -2065,9 +2065,9 @@ pub(crate) mod tests {
                )
        ];

-        // _measure_noise_rgsw(&rgsw_carrym, &carry_m, s.values(), &decomposer, q);
+        _measure_noise_rgsw(&rgsw_carrym, &carry_m, s.values(), &decomposer, q);

-        for i in 0..1 {
+        for i in 0..2 {
            let mut m = vec![0u64; ring_size as usize];
            m[thread_rng().gen_range(0..ring_size) as usize] = if (i & 1) == 1 { q - 1 } else { 1 };
            let rgsw_m = RgswCiphertextEvaluationDomain::<_, DefaultSecureRng, NttBackendU64>::from(
@@ -2111,4 +2111,108 @@ pub(crate) mod tests {
            println!("RLWE(m) x RGSW(carry_m): {noise}");
        }
    }
+
+    #[test]
+    fn some_work() {
+        let logq = 50;
+        let ring_size = 1 << 10;
+        let q = generate_prime(logq, ring_size, 1u64 << logq).unwrap();
+        let d_rgsw = 10;
+        let logb = 5;
+        let decomposer = (
+            DefaultDecomposer::new(q, logb, d_rgsw),
+            DefaultDecomposer::new(q, logb, d_rgsw),
+        );
+
+        let ntt_op = NttBackendU64::new(q, ring_size as usize);
+        let mod_op = ModularOpsU64::new(q);
+        let mut rng = DefaultSecureRng::new_seeded([0u8; 32]);
+
+        let s = RlweSecret::random((ring_size >> 1) as usize, ring_size as usize);
+
+        let mut check = Stats { samples: vec![] };
+
+        for _ in 0..100 {
+            let mut m0 = vec![0u64; ring_size as usize];
+            m0[thread_rng().gen_range(0..ring_size) as usize] = 1;
+            let mut m1 = vec![0u64; ring_size as usize];
+            m1[thread_rng().gen_range(0..ring_size) as usize] = 1;
+
+            let mut rgsw_ct0 = {
+                let seeded_rgsw_ct =
+                    _sk_encrypt_rgsw(&m0, s.values(), &decomposer, &mod_op, &ntt_op);
+                RgswCiphertextEvaluationDomain::<Vec<Vec<u64>>, DefaultSecureRng, NttBackendU64>::from(&seeded_rgsw_ct)
+            };
+            let rgsw_ct1 = {
+                let seeded_rgsw_ct =
+                    _sk_encrypt_rgsw(&m1, s.values(), &decomposer, &mod_op, &ntt_op);
+                RgswCiphertextEvaluationDomain::<Vec<Vec<u64>>, DefaultSecureRng, NttBackendU64>::from(&seeded_rgsw_ct)
+            };
+
+            // RGSW x RGSW
+            // send RGSW(m0) to coefficient domain
+            rgsw_ct0
+                .data
+                .iter_mut()
+                .for_each(|r| ntt_op.backward(r.as_mut_slice()));
+            let mut scratch_matrix = vec![
+                vec![0u64; ring_size as usize];
+                std::cmp::max(
+                    decomposer.a().decomposition_count(),
+                    decomposer.b().decomposition_count()
+                ) + decomposer.a().decomposition_count() * 2
+                    + decomposer.b().decomposition_count() * 2
+            ];
+            rgsw_by_rgsw_inplace(
+                &mut rgsw_ct0.data,
+                &rgsw_ct1.data,
+                &decomposer,
+                &mut scratch_matrix,
+                &ntt_op,
+                &mod_op,
+            );
+            let mut rgsw_m0m1 = rgsw_ct0;
+            // Back to Evaluation for RLWExRGSW
+            rgsw_m0m1
+                .data
+                .iter_mut()
+                .for_each(|r| ntt_op.forward(r.as_mut_slice()));
+
+            // Sample m2, encrypt it as RLWE(m2) and multiply RLWE(m2)xRGSW(m0m1)
+            let mut m2 = vec![0u64; ring_size as usize];
+            RandomUniformDist::random_fill(&mut rng, &q, m2.as_mut_slice());
+            let mut rlwe_in_ct = { _sk_encrypt_rlwe(&m2, s.values(), &ntt_op, &mod_op) };
+            let mut scratch_space = vec![
+                vec![0u64; ring_size as usize];
+                std::cmp::max(
+                    decomposer.a().decomposition_count(),
+                    decomposer.b().decomposition_count()
+                ) + 2
+            ];
+            rlwe_by_rgsw(
+                &mut rlwe_in_ct,
+                &rgsw_m0m1.data,
+                &mut scratch_space,
+                &decomposer,
+                &ntt_op,
+                &mod_op,
+            );
+
+            // Decrypt RLWE(m0m1m2)
+            let mut m0m1m2_back = vec![0u64; ring_size as usize];
+            decrypt_rlwe(&rlwe_in_ct, s.values(), &mut m0m1m2_back, &ntt_op, &mod_op);
+
+            // Calculate m0m1m2
+            let mul_mod = |v0: &u64, v1: &u64| ((*v0 as u128 * *v1 as u128) % q as u128) as u64;
+            let m0m1 = negacyclic_mul(&m0, &m1, mul_mod, q);
+            let m0m1m2 = negacyclic_mul(&m2, &m0m1, mul_mod, q);
+
+            // diff
+            mod_op.elwise_sub_mut(m0m1m2_back.as_mut_slice(), m0m1m2.as_ref());
+
+            check.add_more(&Vec::<i64>::try_convert_from(&m0m1m2_back, &q));
+        }
+
+        println!("Std: {}", check.std_dev().abs().log2());
+    }
 }
--- a/src/utils.rs
+++ b/src/utils.rs
@@ -1,7 +1,7 @@
-use std::usize;
+use std::{fmt::Debug, usize};

 use itertools::Itertools;
-use num_traits::{PrimInt, Signed};
+use num_traits::{FromPrimitive, PrimInt, Signed};

 use crate::RandomUniformDist;
 pub trait WithLocal {
@@ -228,3 +228,38 @@ impl TryConvertFrom<[u64]> for Vec<i64> {
            .collect_vec()
    }
 }
+
+pub(crate) struct Stats<T> {
+    pub(crate) samples: Vec<T>,
+}
+
+impl<T: PrimInt + FromPrimitive + Debug> Stats<T>
+where
+    // T: for<'a> Sum<&'a T>,
+    T: for<'a> std::iter::Sum<&'a T> + std::iter::Sum<T>,
+{
+    pub(crate) fn mean(&self) -> f64 {
+        self.samples.iter().sum::<T>().to_f64().unwrap() / (self.samples.len() as f64)
+    }
+
+    pub(crate) fn std_dev(&self) -> f64 {
+        let mean = self.mean();
+
+        // diff
+        let diff_sq = self
+            .samples
+            .iter()
+            .map(|v| {
+                let t = v.to_f64().unwrap() - mean;
+                t * t
+            })
+            .into_iter()
+            .sum::<f64>();
+
+        (diff_sq / (self.samples.len() as f64)).sqrt()
+    }
+
+    pub(crate) fn add_more(&mut self, values: &[T]) {
+        self.samples.extend(values.iter());
+    }
+}