All test passing

core/src/glwe_ciphertext.rs

@@ -119,16 +119,18 @@ impl GLWECiphertext<Vec<u8>> {
         in_rank: usize,
         ksk_size: usize,
     ) -> usize {
-        module.bytes_of_vec_znx_dft(out_rank + 1, ksk_size)
-            + (module.vec_znx_big_normalize_tmp_bytes()
-                | (module.vmp_apply_tmp_bytes(
+        let res_dft: usize = module.bytes_of_vec_znx_dft(out_rank + 1, ksk_size);
+        let vmp: usize = module.vmp_apply_tmp_bytes(
             out_size,
             in_size,
             in_size,
             in_rank + 1,
             out_rank + 1,
             ksk_size,
-                ) + module.bytes_of_vec_znx_dft(in_size, in_size)))
+        ) + module.bytes_of_vec_znx_dft(in_rank, in_size);
+        let normalize: usize = module.vec_znx_big_normalize_tmp_bytes();
+
+        return res_dft + (vmp | normalize);
     }
 
     pub fn keyswitch_inplace_scratch_space(module: &Module<FFT64>, out_size: usize, out_rank: usize, ksk_size: usize) -> usize {
@@ -142,8 +144,8 @@ impl GLWECiphertext<Vec<u8>> {
         ggsw_size: usize,
         rank: usize,
     ) -> usize {
-        module.bytes_of_vec_znx_dft(rank + 1, ggsw_size)
-            + ((module.bytes_of_vec_znx_dft(rank + 1, in_size)
+        let res_dft: usize = module.bytes_of_vec_znx_dft(rank + 1, ggsw_size);
+        let vmp: usize = module.bytes_of_vec_znx_dft(rank + 1, in_size)
             + module.vmp_apply_tmp_bytes(
                 out_size,
                 in_size,
@@ -151,8 +153,10 @@ impl GLWECiphertext<Vec<u8>> {
                 rank + 1, // cols in
                 rank + 1, // cols out
                 ggsw_size,
-                ))
-                | module.vec_znx_big_normalize_tmp_bytes())
+            );
+        let normalize: usize = module.vec_znx_big_normalize_tmp_bytes();
+
+        res_dft + (vmp | normalize)
     }
 
     pub fn external_product_inplace_scratch_space(module: &Module<FFT64>, res_size: usize, rhs: usize, rank: usize) -> usize {

core/src/keyswitch_key.rs

@@ -78,10 +78,6 @@ where
     where
         VecZnxDft<R, FFT64>: VecZnxDftToMut<FFT64>,
     {
-        #[cfg(debug_assertions)]
-        {
-            assert_eq!(col_j, 0);
-        }
         module.vmp_extract_row(res, self, row_i, col_j);
     }
 }
@@ -94,10 +90,6 @@ where
     where
         VecZnxDft<R, FFT64>: VecZnxDftToRef<FFT64>,
     {
-        #[cfg(debug_assertions)]
-        {
-            assert_eq!(col_j, 0);
-        }
         module.vmp_prepare_row(self, row_i, col_j, a);
     }
 }

core/src/test_fft64/gglwe.rs

@@ -1,4 +1,4 @@
-use base2k::{FFT64, Module, ScalarZnx, ScalarZnxAlloc, ScratchOwned, Stats, VecZnxOps, ZnxViewMut};
+use base2k::{FFT64, Module, ScalarZnx, ScalarZnxAlloc, ScalarZnxToMut, ScratchOwned, Stats, VecZnxOps, ZnxViewMut};
 use sampling::source::Source;
 
 use crate::{
@@ -8,6 +8,7 @@ use crate::{
     glwe_plaintext::GLWEPlaintext,
     keys::{SecretKey, SecretKeyFourier},
     keyswitch_key::GLWESwitchingKey,
+    test_fft64::ggsw::noise_ggsw_product,
 };
 
 #[test]
@@ -15,7 +16,58 @@ fn encrypt_sk() {
     (1..4).for_each(|rank_in| {
         (1..4).for_each(|rank_out| {
             println!("test encrypt_sk rank_in rank_out: {} {}", rank_in, rank_out);
-            test_encrypt_sk(11, 8, 54, 3.2, rank_in, rank_out);
+            test_encrypt_sk(12, 8, 54, 3.2, rank_in, rank_out);
+        });
+    });
+}
+
+#[test]
+fn key_switch() {
+    (1..4).for_each(|rank_in_s0s1| {
+        (1..4).for_each(|rank_out_s0s1| {
+            (1..4).for_each(|rank_out_s1s2| {
+                println!(
+                    "test key_switch : ({},{},{})",
+                    rank_in_s0s1, rank_out_s0s1, rank_out_s1s2
+                );
+                test_key_switch(12, 15, 60, 3.2, rank_in_s0s1, rank_out_s0s1, rank_out_s1s2);
+            })
+        });
+    });
+}
+
+#[test]
+fn key_switch_inplace() {
+    (1..4).for_each(|rank_in_s0s1| {
+        (1..4).for_each(|rank_out_s0s1| {
+            println!(
+                "test key_switch_inplace : ({},{})",
+                rank_in_s0s1, rank_out_s0s1
+            );
+            test_key_switch_inplace(12, 15, 60, 3.2, rank_in_s0s1, rank_out_s0s1);
+        });
+    });
+}
+
+#[test]
+fn external_product() {
+    (1..4).for_each(|rank_in| {
+        (1..4).for_each(|rank_out| {
+            println!("test external_product rank: {} {}", rank_in, rank_out);
+            test_external_product(12, 12, 60, 3.2, rank_in, rank_out);
+        });
+    });
+}
+
+#[test]
+fn external_product_inplace() {
+    (1..4).for_each(|rank_in| {
+        (1..4).for_each(|rank_out| {
+            println!(
+                "test external_product_inplace rank: {} {}",
+                rank_in, rank_out
+            );
+            test_external_product_inplace(12, 12, 60, 3.2, rank_in, rank_out);
         });
     });
 }
@@ -58,12 +110,12 @@ fn test_encrypt_sk(log_n: usize, basek: usize, k_ksk: usize, sigma: f64, rank_in
         scratch.borrow(),
     );
 
-    let mut ct_gglwe_fourier: GLWECiphertextFourier<Vec<u8>, FFT64> = GLWECiphertextFourier::new(&module, basek, k_ksk, rank_out);
+    let mut ct_glwe_fourier: GLWECiphertextFourier<Vec<u8>, FFT64> = GLWECiphertextFourier::new(&module, basek, k_ksk, rank_out);
 
     (0..ksk.rank_in()).for_each(|col_i| {
         (0..ksk.rows()).for_each(|row_i| {
-            ksk.get_row(&module, row_i, 0, &mut ct_gglwe_fourier);
-            ct_gglwe_fourier.decrypt(&module, &mut pt, &sk_out_dft, scratch.borrow());
+            ksk.get_row(&module, row_i, col_i, &mut ct_glwe_fourier);
+            ct_glwe_fourier.decrypt(&module, &mut pt, &sk_out_dft, scratch.borrow());
             module.vec_znx_sub_scalar_inplace(&mut pt, 0, row_i, &sk_in, col_i);
             let std_pt: f64 = pt.data.std(0, basek) * (k_ksk as f64).exp2();
             assert!((sigma - std_pt).abs() <= 0.2, "{} {}", sigma, std_pt);
@@ -71,61 +123,64 @@ fn test_encrypt_sk(log_n: usize, basek: usize, k_ksk: usize, sigma: f64, rank_in
     });
 }
 
-#[test]
-fn keyswitch() {
-    let module: Module<FFT64> = Module::<FFT64>::new(2048);
-    let basek: usize = 12;
-    let log_k_grlwe: usize = 60;
-    let rows: usize = (log_k_grlwe + basek - 1) / basek;
+fn test_key_switch(
+    log_n: usize,
+    basek: usize,
+    k_ksk: usize,
+    sigma: f64,
+    rank_in_s0s1: usize,
+    rank_out_s0s1: usize,
+    rank_out_s1s2: usize,
+) {
+    let module: Module<FFT64> = Module::<FFT64>::new(1 << log_n);
+    let rows = (k_ksk + basek - 1) / basek;
 
-    let rank: usize = 1;
-
-    let sigma: f64 = 3.2;
-
-    let mut ct_grlwe_s0s1: GLWESwitchingKey<Vec<u8>, FFT64> =
-        GLWESwitchingKey::new(&module, basek, log_k_grlwe, rows, rank, rank);
-    let mut ct_grlwe_s1s2: GLWESwitchingKey<Vec<u8>, FFT64> =
-        GLWESwitchingKey::new(&module, basek, log_k_grlwe, rows, rank, rank);
-    let mut ct_grlwe_s0s2: GLWESwitchingKey<Vec<u8>, FFT64> =
-        GLWESwitchingKey::new(&module, basek, log_k_grlwe, rows, rank, rank);
+    let mut ct_gglwe_s0s1: GLWESwitchingKey<Vec<u8>, FFT64> =
+        GLWESwitchingKey::new(&module, basek, k_ksk, rows, rank_in_s0s1, rank_out_s0s1);
+    let mut ct_gglwe_s1s2: GLWESwitchingKey<Vec<u8>, FFT64> =
+        GLWESwitchingKey::new(&module, basek, k_ksk, rows, rank_out_s0s1, rank_out_s1s2);
+    let mut ct_gglwe_s0s2: GLWESwitchingKey<Vec<u8>, FFT64> =
+        GLWESwitchingKey::new(&module, basek, k_ksk, rows, rank_in_s0s1, rank_out_s1s2);
 
     let mut source_xs: Source = Source::new([0u8; 32]);
     let mut source_xe: Source = Source::new([0u8; 32]);
     let mut source_xa: Source = Source::new([0u8; 32]);
 
     let mut scratch: ScratchOwned = ScratchOwned::new(
-        GLWESwitchingKey::encrypt_sk_scratch_space(&module, rank, ct_grlwe_s0s1.size())
-            | GLWECiphertextFourier::decrypt_scratch_space(&module, ct_grlwe_s0s2.size())
+        GLWESwitchingKey::encrypt_sk_scratch_space(&module, rank_in_s0s1 | rank_out_s0s1, ct_gglwe_s0s1.size())
+            | GLWECiphertextFourier::decrypt_scratch_space(&module, ct_gglwe_s0s2.size())
             | GLWESwitchingKey::keyswitch_scratch_space(
                 &module,
-                ct_grlwe_s0s2.size(),
-                ct_grlwe_s0s1.size(),
-                ct_grlwe_s1s2.size(),
+                ct_gglwe_s0s2.size(),
+                ct_gglwe_s0s2.rank(),
+                ct_gglwe_s0s1.size(),
+                ct_gglwe_s0s1.rank(),
+                ct_gglwe_s1s2.size(),
             ),
     );
 
-    let mut sk0: SecretKey<Vec<u8>> = SecretKey::new(&module, rank);
+    let mut sk0: SecretKey<Vec<u8>> = SecretKey::new(&module, rank_in_s0s1);
     sk0.fill_ternary_prob(0.5, &mut source_xs);
 
-    let mut sk0_dft: SecretKeyFourier<Vec<u8>, FFT64> = SecretKeyFourier::new(&module, rank);
+    let mut sk0_dft: SecretKeyFourier<Vec<u8>, FFT64> = SecretKeyFourier::new(&module, rank_in_s0s1);
     sk0_dft.dft(&module, &sk0);
 
-    let mut sk1: SecretKey<Vec<u8>> = SecretKey::new(&module, rank);
+    let mut sk1: SecretKey<Vec<u8>> = SecretKey::new(&module, rank_out_s0s1);
     sk1.fill_ternary_prob(0.5, &mut source_xs);
 
-    let mut sk1_dft: SecretKeyFourier<Vec<u8>, FFT64> = SecretKeyFourier::new(&module, rank);
+    let mut sk1_dft: SecretKeyFourier<Vec<u8>, FFT64> = SecretKeyFourier::new(&module, rank_out_s0s1);
     sk1_dft.dft(&module, &sk1);
 
-    let mut sk2: SecretKey<Vec<u8>> = SecretKey::new(&module, rank);
+    let mut sk2: SecretKey<Vec<u8>> = SecretKey::new(&module, rank_out_s1s2);
     sk2.fill_ternary_prob(0.5, &mut source_xs);
 
-    let mut sk2_dft: SecretKeyFourier<Vec<u8>, FFT64> = SecretKeyFourier::new(&module, rank);
+    let mut sk2_dft: SecretKeyFourier<Vec<u8>, FFT64> = SecretKeyFourier::new(&module, rank_out_s1s2);
     sk2_dft.dft(&module, &sk2);
 
-    // GRLWE_{s1}(s0) = s0 -> s1
-    ct_grlwe_s0s1.encrypt_sk(
+    // gglwe_{s1}(s0) = s0 -> s1
+    ct_gglwe_s0s1.encrypt_sk(
         &module,
-        &sk0.data,
+        &sk0,
         &sk1_dft,
         &mut source_xa,
         &mut source_xe,
@@ -133,10 +188,10 @@ fn keyswitch() {
         scratch.borrow(),
     );
 
-    // GRLWE_{s2}(s1) -> s1 -> s2
-    ct_grlwe_s1s2.encrypt_sk(
+    // gglwe_{s2}(s1) -> s1 -> s2
+    ct_gglwe_s1s2.encrypt_sk(
         &module,
-        &sk1.data,
+        &sk1,
         &sk2_dft,
         &mut source_xa,
         &mut source_xe,
@@ -144,20 +199,20 @@ fn keyswitch() {
         scratch.borrow(),
     );
 
-    // GRLWE_{s1}(s0) (x) GRLWE_{s2}(s1) = GRLWE_{s2}(s0)
-    ct_grlwe_s0s2.keyswitch(&module, &ct_grlwe_s0s1, &ct_grlwe_s1s2, scratch.borrow());
+    // gglwe_{s1}(s0) (x) gglwe_{s2}(s1) = gglwe_{s2}(s0)
+    ct_gglwe_s0s2.keyswitch(&module, &ct_gglwe_s0s1, &ct_gglwe_s1s2, scratch.borrow());
 
-    let mut ct_rlwe_dft_s0s2: GLWECiphertextFourier<Vec<u8>, FFT64> =
-        GLWECiphertextFourier::new(&module, basek, log_k_grlwe, rank);
-    let mut pt: GLWEPlaintext<Vec<u8>> = GLWEPlaintext::new(&module, basek, log_k_grlwe);
+    let mut ct_glwe_dft: GLWECiphertextFourier<Vec<u8>, FFT64> = GLWECiphertextFourier::new(&module, basek, k_ksk, rank_out_s1s2);
+    let mut pt: GLWEPlaintext<Vec<u8>> = GLWEPlaintext::new(&module, basek, k_ksk);
 
-    (0..ct_grlwe_s0s2.rows()).for_each(|row_i| {
-        ct_grlwe_s0s2.get_row(&module, row_i, 0, &mut ct_rlwe_dft_s0s2);
-        ct_rlwe_dft_s0s2.decrypt(&module, &mut pt, &sk2_dft, scratch.borrow());
-        module.vec_znx_sub_scalar_inplace(&mut pt, 0, row_i, &sk0, 0);
+    (0..ct_gglwe_s0s2.rank_in()).for_each(|col_i| {
+        (0..ct_gglwe_s0s2.rows()).for_each(|row_i| {
+            ct_gglwe_s0s2.get_row(&module, row_i, col_i, &mut ct_glwe_dft);
+            ct_glwe_dft.decrypt(&module, &mut pt, &sk2_dft, scratch.borrow());
+            module.vec_znx_sub_scalar_inplace(&mut pt, 0, row_i, &sk0, col_i);
 
             let noise_have: f64 = pt.data.std(0, basek).log2();
-        let noise_want: f64 = noise_grlwe_rlwe_product(
+            let noise_want: f64 = noise_gglwe_product(
                 module.n() as f64,
                 basek,
                 0.5,
@@ -165,8 +220,9 @@ fn keyswitch() {
                 0f64,
                 sigma * sigma,
                 0f64,
-            log_k_grlwe,
-            log_k_grlwe,
+                rank_out_s0s1 as f64,
+                k_ksk,
+                k_ksk,
             );
 
             assert!(
@@ -176,57 +232,55 @@ fn keyswitch() {
                 noise_want
             );
         });
+    });
 }
 
-#[test]
-fn keyswitch_inplace() {
-    let module: Module<FFT64> = Module::<FFT64>::new(2048);
-    let basek: usize = 12;
-    let log_k_grlwe: usize = 60;
-    let rows: usize = (log_k_grlwe + basek - 1) / basek;
+fn test_key_switch_inplace(log_n: usize, basek: usize, k_ksk: usize, sigma: f64, rank_in_s0s1: usize, rank_out_s0s1: usize) {
+    let module: Module<FFT64> = Module::<FFT64>::new(1 << log_n);
+    let rows: usize = (k_ksk + basek - 1) / basek;
 
-    let rank: usize = 1;
-    let rank_out: usize = 1;
-
-    let sigma: f64 = 3.2;
-
-    let mut ct_grlwe_s0s1: GLWESwitchingKey<Vec<u8>, FFT64> =
-        GLWESwitchingKey::new(&module, basek, log_k_grlwe, rows, rank, rank_out);
-    let mut ct_grlwe_s1s2: GLWESwitchingKey<Vec<u8>, FFT64> =
-        GLWESwitchingKey::new(&module, basek, log_k_grlwe, rows, rank, rank_out);
+    let mut ct_gglwe_s0s1: GLWESwitchingKey<Vec<u8>, FFT64> =
+        GLWESwitchingKey::new(&module, basek, k_ksk, rows, rank_in_s0s1, rank_out_s0s1);
+    let mut ct_gglwe_s1s2: GLWESwitchingKey<Vec<u8>, FFT64> =
+        GLWESwitchingKey::new(&module, basek, k_ksk, rows, rank_out_s0s1, rank_out_s0s1);
 
     let mut source_xs: Source = Source::new([0u8; 32]);
     let mut source_xe: Source = Source::new([0u8; 32]);
     let mut source_xa: Source = Source::new([0u8; 32]);
 
     let mut scratch: ScratchOwned = ScratchOwned::new(
-        GLWESwitchingKey::encrypt_sk_scratch_space(&module, rank, ct_grlwe_s0s1.size())
-            | GLWECiphertextFourier::decrypt_scratch_space(&module, ct_grlwe_s0s1.size())
-            | GLWESwitchingKey::keyswitch_inplace_scratch_space(&module, ct_grlwe_s0s1.size(), ct_grlwe_s1s2.size()),
+        GLWESwitchingKey::encrypt_sk_scratch_space(&module, rank_out_s0s1, ct_gglwe_s0s1.size())
+            | GLWECiphertextFourier::decrypt_scratch_space(&module, ct_gglwe_s0s1.size())
+            | GLWESwitchingKey::keyswitch_inplace_scratch_space(
+                &module,
+                ct_gglwe_s0s1.size(),
+                ct_gglwe_s0s1.rank(),
+                ct_gglwe_s1s2.size(),
+            ),
     );
 
-    let mut sk0: SecretKey<Vec<u8>> = SecretKey::new(&module, rank);
+    let mut sk0: SecretKey<Vec<u8>> = SecretKey::new(&module, rank_in_s0s1);
     sk0.fill_ternary_prob(0.5, &mut source_xs);
 
-    let mut sk0_dft: SecretKeyFourier<Vec<u8>, FFT64> = SecretKeyFourier::new(&module, rank);
+    let mut sk0_dft: SecretKeyFourier<Vec<u8>, FFT64> = SecretKeyFourier::new(&module, rank_in_s0s1);
     sk0_dft.dft(&module, &sk0);
 
-    let mut sk1: SecretKey<Vec<u8>> = SecretKey::new(&module, rank);
+    let mut sk1: SecretKey<Vec<u8>> = SecretKey::new(&module, rank_out_s0s1);
     sk1.fill_ternary_prob(0.5, &mut source_xs);
 
-    let mut sk1_dft: SecretKeyFourier<Vec<u8>, FFT64> = SecretKeyFourier::new(&module, rank);
+    let mut sk1_dft: SecretKeyFourier<Vec<u8>, FFT64> = SecretKeyFourier::new(&module, rank_out_s0s1);
     sk1_dft.dft(&module, &sk1);
 
-    let mut sk2: SecretKey<Vec<u8>> = SecretKey::new(&module, rank);
+    let mut sk2: SecretKey<Vec<u8>> = SecretKey::new(&module, rank_out_s0s1);
     sk2.fill_ternary_prob(0.5, &mut source_xs);
 
-    let mut sk2_dft: SecretKeyFourier<Vec<u8>, FFT64> = SecretKeyFourier::new(&module, rank);
+    let mut sk2_dft: SecretKeyFourier<Vec<u8>, FFT64> = SecretKeyFourier::new(&module, rank_out_s0s1);
     sk2_dft.dft(&module, &sk2);
 
-    // GRLWE_{s1}(s0) = s0 -> s1
-    ct_grlwe_s0s1.encrypt_sk(
+    // gglwe_{s1}(s0) = s0 -> s1
+    ct_gglwe_s0s1.encrypt_sk(
         &module,
-        &sk0.data,
+        &sk0,
         &sk1_dft,
         &mut source_xa,
         &mut source_xe,
@@ -234,10 +288,10 @@ fn keyswitch_inplace() {
         scratch.borrow(),
     );
 
-    // GRLWE_{s2}(s1) -> s1 -> s2
-    ct_grlwe_s1s2.encrypt_sk(
+    // gglwe_{s2}(s1) -> s1 -> s2
+    ct_gglwe_s1s2.encrypt_sk(
         &module,
-        &sk1.data,
+        &sk1,
         &sk2_dft,
         &mut source_xa,
         &mut source_xe,
@@ -245,22 +299,22 @@ fn keyswitch_inplace() {
         scratch.borrow(),
     );
 
-    // GRLWE_{s1}(s0) (x) GRLWE_{s2}(s1) = GRLWE_{s2}(s0)
-    ct_grlwe_s0s1.keyswitch_inplace(&module, &ct_grlwe_s1s2, scratch.borrow());
+    // gglwe_{s1}(s0) (x) gglwe_{s2}(s1) = gglwe_{s2}(s0)
+    ct_gglwe_s0s1.keyswitch_inplace(&module, &ct_gglwe_s1s2, scratch.borrow());
 
-    let ct_grlwe_s0s2: GLWESwitchingKey<Vec<u8>, FFT64> = ct_grlwe_s0s1;
+    let ct_gglwe_s0s2: GLWESwitchingKey<Vec<u8>, FFT64> = ct_gglwe_s0s1;
 
-    let mut ct_rlwe_dft_s0s2: GLWECiphertextFourier<Vec<u8>, FFT64> =
-        GLWECiphertextFourier::new(&module, basek, log_k_grlwe, rank);
-    let mut pt: GLWEPlaintext<Vec<u8>> = GLWEPlaintext::new(&module, basek, log_k_grlwe);
+    let mut ct_glwe_dft: GLWECiphertextFourier<Vec<u8>, FFT64> = GLWECiphertextFourier::new(&module, basek, k_ksk, rank_out_s0s1);
+    let mut pt: GLWEPlaintext<Vec<u8>> = GLWEPlaintext::new(&module, basek, k_ksk);
 
-    (0..ct_grlwe_s0s2.rows()).for_each(|row_i| {
-        ct_grlwe_s0s2.get_row(&module, row_i, 0, &mut ct_rlwe_dft_s0s2);
-        ct_rlwe_dft_s0s2.decrypt(&module, &mut pt, &sk2_dft, scratch.borrow());
-        module.vec_znx_sub_scalar_inplace(&mut pt, 0, row_i, &sk0, 0);
+    (0..ct_gglwe_s0s2.rank_in()).for_each(|col_i| {
+        (0..ct_gglwe_s0s2.rows()).for_each(|row_i| {
+            ct_gglwe_s0s2.get_row(&module, row_i, col_i, &mut ct_glwe_dft);
+            ct_glwe_dft.decrypt(&module, &mut pt, &sk2_dft, scratch.borrow());
+            module.vec_znx_sub_scalar_inplace(&mut pt, 0, row_i, &sk0, col_i);
 
             let noise_have: f64 = pt.data.std(0, basek).log2();
-        let noise_want: f64 = noise_grlwe_rlwe_product(
+            let noise_want: f64 = noise_gglwe_product(
                 module.n() as f64,
                 basek,
                 0.5,
@@ -268,8 +322,9 @@ fn keyswitch_inplace() {
                 0f64,
                 sigma * sigma,
                 0f64,
-            log_k_grlwe,
-            log_k_grlwe,
+                rank_out_s0s1 as f64,
+                k_ksk,
+                k_ksk,
             );
 
             assert!(
@@ -279,62 +334,58 @@ fn keyswitch_inplace() {
                 noise_want
             );
         });
+    });
 }
 
-#[test]
-fn external_product() {
-    let module: Module<FFT64> = Module::<FFT64>::new(2048);
-    let basek: usize = 12;
-    let log_k_grlwe: usize = 60;
-    let rows: usize = (log_k_grlwe + basek - 1) / basek;
+fn test_external_product(log_n: usize, basek: usize, k: usize, sigma: f64, rank_in: usize, rank_out: usize) {
+    let module: Module<FFT64> = Module::<FFT64>::new(1 << log_n);
 
-    let rank: usize = 1;
-    let rank_out: usize = 1;
+    let rows: usize = (k + basek - 1) / basek;
 
-    let sigma: f64 = 3.2;
-
-    let mut ct_grlwe_in: GLWESwitchingKey<Vec<u8>, FFT64> =
-        GLWESwitchingKey::new(&module, basek, log_k_grlwe, rows, rank, rank_out);
-    let mut ct_grlwe_out: GLWESwitchingKey<Vec<u8>, FFT64> =
-        GLWESwitchingKey::new(&module, basek, log_k_grlwe, rows, rank, rank_out);
-    let mut ct_rgsw: GGSWCiphertext<Vec<u8>, FFT64> = GGSWCiphertext::new(&module, basek, log_k_grlwe, rows, rank);
+    let mut ct_gglwe_in: GLWESwitchingKey<Vec<u8>, FFT64> = GLWESwitchingKey::new(&module, basek, k, rows, rank_in, rank_out);
+    let mut ct_gglwe_out: GLWESwitchingKey<Vec<u8>, FFT64> = GLWESwitchingKey::new(&module, basek, k, rows, rank_in, rank_out);
+    let mut ct_rgsw: GGSWCiphertext<Vec<u8>, FFT64> = GGSWCiphertext::new(&module, basek, k, rows, rank_out);
 
     let mut pt_rgsw: ScalarZnx<Vec<u8>> = module.new_scalar_znx(1);
-    let mut pt_grlwe: ScalarZnx<Vec<u8>> = module.new_scalar_znx(1);
 
     let mut source_xs: Source = Source::new([0u8; 32]);
     let mut source_xe: Source = Source::new([0u8; 32]);
     let mut source_xa: Source = Source::new([0u8; 32]);
 
     let mut scratch: ScratchOwned = ScratchOwned::new(
-        GLWESwitchingKey::encrypt_sk_scratch_space(&module, rank, ct_grlwe_in.size())
-            | GLWECiphertextFourier::decrypt_scratch_space(&module, ct_grlwe_out.size())
+        GLWESwitchingKey::encrypt_sk_scratch_space(&module, rank_out, ct_gglwe_in.size())
+            | GLWECiphertextFourier::decrypt_scratch_space(&module, ct_gglwe_out.size())
             | GLWESwitchingKey::external_product_scratch_space(
                 &module,
-                ct_grlwe_out.size(),
-                ct_grlwe_in.size(),
+                ct_gglwe_out.size(),
+                ct_gglwe_in.size(),
                 ct_rgsw.size(),
+                rank_out,
             )
-            | GGSWCiphertext::encrypt_sk_scratch_space(&module, rank, ct_rgsw.size()),
+            | GGSWCiphertext::encrypt_sk_scratch_space(&module, rank_out, ct_rgsw.size()),
     );
 
-    let k: usize = 1;
+    let r: usize = 1;
 
-    pt_rgsw.raw_mut()[k] = 1; // X^{k}
+    pt_rgsw.to_mut().raw_mut()[r] = 1; // X^{r}
 
-    pt_grlwe.fill_ternary_prob(0, 0.5, &mut source_xs);
+    let mut sk_in: SecretKey<Vec<u8>> = SecretKey::new(&module, rank_in);
+    sk_in.fill_ternary_prob(0.5, &mut source_xs);
 
-    let mut sk: SecretKey<Vec<u8>> = SecretKey::new(&module, rank);
-    sk.fill_ternary_prob(0.5, &mut source_xs);
+    let mut sk_in_dft: SecretKeyFourier<Vec<u8>, FFT64> = SecretKeyFourier::new(&module, rank_in);
+    sk_in_dft.dft(&module, &sk_in);
 
-    let mut sk_dft: SecretKeyFourier<Vec<u8>, FFT64> = SecretKeyFourier::new(&module, rank);
-    sk_dft.dft(&module, &sk);
+    let mut sk_out: SecretKey<Vec<u8>> = SecretKey::new(&module, rank_out);
+    sk_out.fill_ternary_prob(0.5, &mut source_xs);
 
-    // GRLWE_{s1}(s0) = s0 -> s1
-    ct_grlwe_in.encrypt_sk(
+    let mut sk_out_dft: SecretKeyFourier<Vec<u8>, FFT64> = SecretKeyFourier::new(&module, rank_out);
+    sk_out_dft.dft(&module, &sk_out);
+
+    // gglwe_{s1}(s0) = s0 -> s1
+    ct_gglwe_in.encrypt_sk(
         &module,
-        &pt_grlwe,
-        &sk_dft,
+        &sk_in,
+        &sk_out_dft,
         &mut source_xa,
         &mut source_xe,
         sigma,
@@ -344,26 +395,28 @@ fn external_product() {
     ct_rgsw.encrypt_sk(
         &module,
         &pt_rgsw,
-        &sk_dft,
+        &sk_out_dft,
         &mut source_xa,
         &mut source_xe,
         sigma,
         scratch.borrow(),
     );
 
-    // GRLWE_(m) (x) RGSW_(X^k) = GRLWE_(m * X^k)
-    ct_grlwe_out.external_product(&module, &ct_grlwe_in, &ct_rgsw, scratch.borrow());
+    // gglwe_(m) (x) RGSW_(X^k) = gglwe_(m * X^k)
+    ct_gglwe_out.external_product(&module, &ct_gglwe_in, &ct_rgsw, scratch.borrow());
 
-    let mut ct_rlwe_dft_s0s2: GLWECiphertextFourier<Vec<u8>, FFT64> =
-        GLWECiphertextFourier::new(&module, basek, log_k_grlwe, rank);
-    let mut pt: GLWEPlaintext<Vec<u8>> = GLWEPlaintext::new(&module, basek, log_k_grlwe);
+    let mut ct_glwe_dft: GLWECiphertextFourier<Vec<u8>, FFT64> = GLWECiphertextFourier::new(&module, basek, k, rank_out);
+    let mut pt: GLWEPlaintext<Vec<u8>> = GLWEPlaintext::new(&module, basek, k);
 
-    module.vec_znx_rotate_inplace(k as i64, &mut pt_grlwe, 0);
+    (0..rank_in).for_each(|i| {
+        module.vec_znx_rotate_inplace(r as i64, &mut sk_in.data, i); // * X^{r}
+    });
 
-    (0..ct_grlwe_out.rows()).for_each(|row_i| {
-        ct_grlwe_out.get_row(&module, row_i, 0, &mut ct_rlwe_dft_s0s2);
-        ct_rlwe_dft_s0s2.decrypt(&module, &mut pt, &sk_dft, scratch.borrow());
-        module.vec_znx_sub_scalar_inplace(&mut pt, 0, row_i, &pt_grlwe, 0);
+    (0..rank_in).for_each(|col_i| {
+        (0..ct_gglwe_out.rows()).for_each(|row_i| {
+            ct_gglwe_out.get_row(&module, row_i, col_i, &mut ct_glwe_dft);
+            ct_glwe_dft.decrypt(&module, &mut pt, &sk_out_dft, scratch.borrow());
+            module.vec_znx_sub_scalar_inplace(&mut pt, 0, row_i, &sk_in, col_i);
 
             let noise_have: f64 = pt.data.std(0, basek).log2();
 
@@ -374,7 +427,7 @@ fn external_product() {
             let var_a0_err: f64 = sigma * sigma;
             let var_a1_err: f64 = 1f64 / 12f64;
 
-        let noise_want: f64 = noise_rgsw_product(
+            let noise_want: f64 = noise_ggsw_product(
                 module.n() as f64,
                 basek,
                 0.5,
@@ -383,8 +436,9 @@ fn external_product() {
                 var_a1_err,
                 var_gct_err_lhs,
                 var_gct_err_rhs,
-            log_k_grlwe,
-            log_k_grlwe,
+                rank_out as f64,
+                k,
+                k,
             );
 
             assert!(
@@ -394,54 +448,51 @@ fn external_product() {
                 noise_want
             );
         });
+    });
 }
 
-#[test]
-fn external_product_inplace() {
-    let module: Module<FFT64> = Module::<FFT64>::new(2048);
-    let basek: usize = 12;
-    let log_k_grlwe: usize = 60;
-    let rows: usize = (log_k_grlwe + basek - 1) / basek;
+fn test_external_product_inplace(log_n: usize, basek: usize, k: usize, sigma: f64, rank_in: usize, rank_out: usize) {
+    let module: Module<FFT64> = Module::<FFT64>::new(1 << log_n);
 
-    let rank: usize = 1;
-    let rank_out: usize = 1;
+    let rows: usize = (k + basek - 1) / basek;
 
-    let sigma: f64 = 3.2;
-
-    let mut ct_grlwe: GLWESwitchingKey<Vec<u8>, FFT64> = GLWESwitchingKey::new(&module, basek, log_k_grlwe, rows, rank, rank_out);
-    let mut ct_rgsw: GGSWCiphertext<Vec<u8>, FFT64> = GGSWCiphertext::new(&module, basek, log_k_grlwe, rows, rank);
+    let mut ct_gglwe: GLWESwitchingKey<Vec<u8>, FFT64> = GLWESwitchingKey::new(&module, basek, k, rows, rank_in, rank_out);
+    let mut ct_rgsw: GGSWCiphertext<Vec<u8>, FFT64> = GGSWCiphertext::new(&module, basek, k, rows, rank_out);
 
     let mut pt_rgsw: ScalarZnx<Vec<u8>> = module.new_scalar_znx(1);
-    let mut pt_grlwe: ScalarZnx<Vec<u8>> = module.new_scalar_znx(1);
 
     let mut source_xs: Source = Source::new([0u8; 32]);
     let mut source_xe: Source = Source::new([0u8; 32]);
     let mut source_xa: Source = Source::new([0u8; 32]);
 
     let mut scratch: ScratchOwned = ScratchOwned::new(
-        GLWESwitchingKey::encrypt_sk_scratch_space(&module, rank, ct_grlwe.size())
-            | GLWECiphertextFourier::decrypt_scratch_space(&module, ct_grlwe.size())
-            | GLWESwitchingKey::external_product_inplace_scratch_space(&module, ct_grlwe.size(), ct_rgsw.size())
-            | GGSWCiphertext::encrypt_sk_scratch_space(&module, rank, ct_rgsw.size()),
+        GLWESwitchingKey::encrypt_sk_scratch_space(&module, rank_out, ct_gglwe.size())
+            | GLWECiphertextFourier::decrypt_scratch_space(&module, ct_gglwe.size())
+            | GLWESwitchingKey::external_product_inplace_scratch_space(&module, ct_gglwe.size(), ct_rgsw.size(), rank_out)
+            | GGSWCiphertext::encrypt_sk_scratch_space(&module, rank_out, ct_rgsw.size()),
     );
 
-    let k: usize = 1;
+    let r: usize = 1;
 
-    pt_rgsw.raw_mut()[k] = 1; // X^{k}
+    pt_rgsw.to_mut().raw_mut()[r] = 1; // X^{r}
 
-    pt_grlwe.fill_ternary_prob(0, 0.5, &mut source_xs);
+    let mut sk_in: SecretKey<Vec<u8>> = SecretKey::new(&module, rank_in);
+    sk_in.fill_ternary_prob(0.5, &mut source_xs);
 
-    let mut sk: SecretKey<Vec<u8>> = SecretKey::new(&module, rank);
-    sk.fill_ternary_prob(0.5, &mut source_xs);
+    let mut sk_in_dft: SecretKeyFourier<Vec<u8>, FFT64> = SecretKeyFourier::new(&module, rank_in);
+    sk_in_dft.dft(&module, &sk_in);
 
-    let mut sk_dft: SecretKeyFourier<Vec<u8>, FFT64> = SecretKeyFourier::new(&module, rank);
-    sk_dft.dft(&module, &sk);
+    let mut sk_out: SecretKey<Vec<u8>> = SecretKey::new(&module, rank_out);
+    sk_out.fill_ternary_prob(0.5, &mut source_xs);
 
-    // GRLWE_{s1}(s0) = s0 -> s1
-    ct_grlwe.encrypt_sk(
+    let mut sk_out_dft: SecretKeyFourier<Vec<u8>, FFT64> = SecretKeyFourier::new(&module, rank_out);
+    sk_out_dft.dft(&module, &sk_out);
+
+    // gglwe_{s1}(s0) = s0 -> s1
+    ct_gglwe.encrypt_sk(
         &module,
-        &pt_grlwe,
-        &sk_dft,
+        &sk_in,
+        &sk_out_dft,
         &mut source_xa,
         &mut source_xe,
         sigma,
@@ -451,26 +502,28 @@ fn external_product_inplace() {
     ct_rgsw.encrypt_sk(
         &module,
         &pt_rgsw,
-        &sk_dft,
+        &sk_out_dft,
         &mut source_xa,
         &mut source_xe,
         sigma,
         scratch.borrow(),
     );
 
-    // GRLWE_(m) (x) RGSW_(X^k) = GRLWE_(m * X^k)
-    ct_grlwe.external_product_inplace(&module, &ct_rgsw, scratch.borrow());
+    // gglwe_(m) (x) RGSW_(X^k) = gglwe_(m * X^k)
+    ct_gglwe.external_product_inplace(&module, &ct_rgsw, scratch.borrow());
 
-    let mut ct_rlwe_dft_s0s2: GLWECiphertextFourier<Vec<u8>, FFT64> =
-        GLWECiphertextFourier::new(&module, basek, log_k_grlwe, rank);
-    let mut pt: GLWEPlaintext<Vec<u8>> = GLWEPlaintext::new(&module, basek, log_k_grlwe);
+    let mut ct_glwe_dft: GLWECiphertextFourier<Vec<u8>, FFT64> = GLWECiphertextFourier::new(&module, basek, k, rank_out);
+    let mut pt: GLWEPlaintext<Vec<u8>> = GLWEPlaintext::new(&module, basek, k);
 
-    module.vec_znx_rotate_inplace(k as i64, &mut pt_grlwe, 0);
+    (0..rank_in).for_each(|i| {
+        module.vec_znx_rotate_inplace(r as i64, &mut sk_in.data, i); // * X^{r}
+    });
 
-    (0..ct_grlwe.rows()).for_each(|row_i| {
-        ct_grlwe.get_row(&module, row_i, 0, &mut ct_rlwe_dft_s0s2);
-        ct_rlwe_dft_s0s2.decrypt(&module, &mut pt, &sk_dft, scratch.borrow());
-        module.vec_znx_sub_scalar_inplace(&mut pt, 0, row_i, &pt_grlwe, 0);
+    (0..rank_in).for_each(|col_i| {
+        (0..ct_gglwe.rows()).for_each(|row_i| {
+            ct_gglwe.get_row(&module, row_i, col_i, &mut ct_glwe_dft);
+            ct_glwe_dft.decrypt(&module, &mut pt, &sk_out_dft, scratch.borrow());
+            module.vec_znx_sub_scalar_inplace(&mut pt, 0, row_i, &sk_in, col_i);
 
             let noise_have: f64 = pt.data.std(0, basek).log2();
 
@@ -481,7 +534,7 @@ fn external_product_inplace() {
             let var_a0_err: f64 = sigma * sigma;
             let var_a1_err: f64 = 1f64 / 12f64;
 
-        let noise_want: f64 = noise_rgsw_product(
+            let noise_want: f64 = noise_ggsw_product(
                 module.n() as f64,
                 basek,
                 0.5,
@@ -490,8 +543,9 @@ fn external_product_inplace() {
                 var_a1_err,
                 var_gct_err_lhs,
                 var_gct_err_rhs,
-            log_k_grlwe,
-            log_k_grlwe,
+                rank_out as f64,
+                k,
+                k,
             );
 
             assert!(
@@ -501,7 +555,9 @@ fn external_product_inplace() {
                 noise_want
             );
         });
+    });
 }
+
 pub(crate) fn noise_gglwe_product(
     n: f64,
     basek: usize,

core/src/test_fft64/glwe.rs

@@ -263,10 +263,10 @@ fn test_keyswitch(
             | GLWECiphertext::keyswitch_scratch_space(
                 &module,
                 ct_out.size(),
-                ct_in.size(),
-                ksk.size(),
-                rank_in,
                 rank_out,
+                ct_in.size(),
+                rank_in,
+                ksk.size(),
             ),
     );
 
@@ -352,7 +352,7 @@ fn test_keyswitch_inplace(log_n: usize, basek: usize, k_ksk: usize, k_ct: usize,
         GLWESwitchingKey::encrypt_sk_scratch_space(&module, rank, ct_grlwe.size())
             | GLWECiphertext::decrypt_scratch_space(&module, ct_rlwe.size())
             | GLWECiphertext::encrypt_sk_scratch_space(&module, ct_rlwe.size())
-            | GLWECiphertext::keyswitch_inplace_scratch_space(&module, ct_rlwe.size(), ct_grlwe.size(), rank),
+            | GLWECiphertext::keyswitch_inplace_scratch_space(&module, ct_rlwe.size(), rank, ct_grlwe.size()),
     );
 
     let mut sk0: SecretKey<Vec<u8>> = SecretKey::new(&module, rank);

core/src/test_fft64/glwe_fourier.rs

@@ -84,10 +84,10 @@ fn test_keyswitch(
             | GLWECiphertextFourier::keyswitch_scratch_space(
                 &module,
                 ct_glwe_out.size(),
-                ct_glwe_in.size(),
-                ksk.size(),
-                rank_in,
                 rank_out,
+                ct_glwe_in.size(),
+                rank_in,
+                ksk.size(),
             ),
     );