10_fault_tolerant_safety / task_101 | lockstep_event_counter
Здесь перечислены все реальные попытки этой модели на одной задаче. По каждой попытке можно увидеть, до какой стадии она дошла, где именно сломалась и какое сообщение об ошибке вернулось из syntax, functional или synthesis.
| sample | run | extract_ok | syntax_ok | functional_ok | openlane_ok | final_success | failure_stage | failure_reason | details |
|---|---|---|---|---|---|---|---|---|---|
| sample_1 | run_20260424_142537_441024_d248e7 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_142537_441024_d248e7__sample_1
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next;
wire [3:0] shadow_next_faulty;
wire mismatch_next;
wire fault_next;
assign primary_next = load ? load_value : (step ? (primary + 4'd1) : primary);
assign shadow_next = load ? load_value : (step ? (shadow + 4'd1) : shadow);
assign shadow_next_faulty = inject_shadow_fault ? (shadow_next ^ 4'b0001) : shadow_next;
assign mismatch_next = (primary_next != shadow_next_faulty);
assign fault_next = fault_flag | mismatch_next;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
primary <= 4'h0;
shadow <= 4'h0;
...
synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_1 | run_20260424_144121_405769_1acdc5 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_144121_405769_1acdc5__sample_1
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
assign primary_next = load ? load_value : (step ? (primary + 4'h1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'h1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'h1) : shadow_next_base;
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
primary <= 4'h0;
shadow <= 4'h0;
...
synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_1 | run_20260424_172135_562392_bd9fc2 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_172135_562392_bd9fc2__sample_1
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
wire mismatch;
assign primary_next = load ? load_value : (step ? (primary + 4'd1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'd1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'h1) : shadow_next_base;
assign mismatch = (primary_next != shadow_next);
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_1 | run_20260424_230145_632624_082334 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_230145_632624_082334__sample_1
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next;
wire [3:0] shadow_next_faulty;
wire mismatch;
assign primary_next = load ? load_value : (step ? (primary + 4'h1) : primary);
assign shadow_next = load ? load_value : (step ? (shadow + 4'h1) : shadow);
assign shadow_next_faulty = inject_shadow_fault ? (shadow_next ^ 4'h1) : shadow_next;
assign mismatch = (primary_next != shadow_next_faulty);
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/pashencev/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_2 | run_20260424_142537_441024_d248e7 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_142537_441024_d248e7__sample_2
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
wire mismatch;
assign primary_next = load ? load_value : (step ? (primary + 4'd1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'd1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'h1) : shadow_next_base;
assign mismatch = (primary_next != shadow_next);
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_2 | run_20260424_144121_405769_1acdc5 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_144121_405769_1acdc5__sample_2
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
wire mismatch;
assign primary_next = load ? load_value : (step ? (primary + 4'h1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'h1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'h1) : shadow_next_base;
assign mismatch = (primary_next != shadow_next);
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_2 | run_20260424_172135_562392_bd9fc2 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_172135_562392_bd9fc2__sample_2
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
wire mismatch;
assign primary_next = load ? load_value : (step ? (primary + 4'd1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'd1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'b0001) : shadow_next_base;
assign mismatch = (primary_next != shadow_next);
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_2 | run_20260424_230145_632624_082334 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_230145_632624_082334__sample_2
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
wire mismatch;
assign primary_next = load ? load_value : (step ? (primary + 4'd1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'd1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'b0001) : shadow_next_base;
assign mismatch = (primary_next != shadow_next);
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/pashencev/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_3 | run_20260424_142537_441024_d248e7 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_142537_441024_d248e7__sample_3
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
wire mismatch;
assign primary_next = load ? load_value : (step ? (primary + 4'd1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'd1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'h1) : shadow_next_base;
assign mismatch = (primary_next != shadow_next);
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_3 | run_20260424_144121_405769_1acdc5 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_144121_405769_1acdc5__sample_3
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
assign primary_next = load ? load_value : (step ? (primary + 4'h1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'h1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'h1) : shadow_next_base;
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
primary <= 4'h0;
shadow <= 4'h0;
...
synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_3 | run_20260424_172135_562392_bd9fc2 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_172135_562392_bd9fc2__sample_3
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
assign primary_next = load ? load_value : (step ? (primary + 4'd1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'd1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'b0001) : shadow_next_base;
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
primary <= 4'h0;
shadow <= 4'h0;
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_3 | run_20260424_230145_632624_082334 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_230145_632624_082334__sample_3
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
wire mismatch;
assign primary_next = load ? load_value : (step ? (primary + 4'h1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'h1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'h1) : shadow_next_base;
assign mismatch = (primary_next != shadow_next);
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/pashencev/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_4 | run_20260424_172135_562392_bd9fc2 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_172135_562392_bd9fc2__sample_4
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
assign primary_next = load ? load_value : (step ? (primary + 4'h1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'h1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'h1) : shadow_next_base;
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
primary <= 4'h0;
shadow <= 4'h0;
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_4 | run_20260424_230145_632624_082334 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_230145_632624_082334__sample_4
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next;
wire [3:0] shadow_next_faulty;
wire mismatch;
assign primary_next = load ? load_value : (step ? (primary + 4'h1) : primary);
assign shadow_next = load ? load_value : (step ? (shadow + 4'h1) : shadow);
assign shadow_next_faulty = inject_shadow_fault ? (shadow_next ^ 4'h1) : shadow_next;
assign mismatch = (primary_next != shadow_next_faulty);
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/pashencev/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_5 | run_20260424_172135_562392_bd9fc2 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_172135_562392_bd9fc2__sample_5
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
wire mismatch;
assign primary_next = load ? load_value : (step ? (primary + 4'd1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'd1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'b0001) : shadow_next_base;
assign mismatch = (primary_next != shadow_next);
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_5 | run_20260424_230145_632624_082334 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_230145_632624_082334__sample_5
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
wire mismatch;
assign primary_next = load ? load_value : (step ? (primary + 4'h1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'h1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'h1) : shadow_next_base;
assign mismatch = (primary_next != shadow_next);
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/pashencev/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_6 | run_20260424_172135_562392_bd9fc2 | ok | ok | failed | failed | failed | functional | Functional output contains failure marker: TEST_FAILED. ERROR (async reset): count_valid=1 expected=0 |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_172135_562392_bd9fc2__sample_6
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
wire mismatch;
assign primary_next = load ? load_value : (step ? (primary + 4'h1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'h1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'h1) : shadow_next_base;
assign mismatch = (primary_next != shadow_next);
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = fault_flag ? 1'b0 : 1'b1;
assign halted = fault_flag ? 1'b1 : 1'b0;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
functional details[stdout] ERROR (async reset): count_valid=1 expected=0 ERROR (reset clears fault): count_valid=1 expected=0 TEST_FAILED /workspace/banchmarks/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None errors[][
{
"stage": "functional",
"code": "functional.output_failed_marker",
"message": "Functional output contains failure marker: TEST_FAILED. ERROR (async reset): count_valid=1 expected=0",
"retryable": false,
"details": {
"marker": "TEST_FAILED"
}
},
{
"stage": "openlane",
"code": "openlane.invalidated_by_functional_failure",
"message": "OpenLane result invalidated because functional validation failed after output-marker correction",
"retryable": false,
"details": {}
}
]
outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": false,
"openlane_ok": false,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": false,
"success": false
}
|
| sample_6 | run_20260424_230145_632624_082334 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_230145_632624_082334__sample_6
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
wire mismatch;
assign primary_next = load ? load_value : (step ? (primary + 4'h1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'h1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'h1) : shadow_next_base;
assign mismatch = (primary_next != shadow_next);
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/pashencev/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_7 | run_20260424_172135_562392_bd9fc2 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_172135_562392_bd9fc2__sample_7
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
wire mismatch;
assign primary_next = load ? load_value : (step ? (primary + 4'd1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'd1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'b0001) : shadow_next_base;
assign mismatch = (primary_next != shadow_next);
assign halted = fault_flag;
assign count_valid = rst_n & ~fault_flag;
assign count = (rst_n & ~fault_flag) ? primary : 4'h0;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_7 | run_20260424_230145_632624_082334 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_230145_632624_082334__sample_7
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
assign primary_next = load ? load_value : (step ? (primary + 4'h1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'h1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'h1) : shadow_next_base;
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
primary <= 4'h0;
shadow <= 4'h0;
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/pashencev/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_8 | run_20260424_172135_562392_bd9fc2 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_172135_562392_bd9fc2__sample_8
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
wire mismatch;
assign primary_next = load ? load_value : (step ? (primary + 4'd1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'd1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'b0001) : shadow_next_base;
assign mismatch = (primary_next != shadow_next);
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_8 | run_20260424_230145_632624_082334 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_230145_632624_082334__sample_8
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] next_primary;
wire [3:0] next_shadow_base;
wire [3:0] next_shadow;
wire mismatch;
wire fault_next;
assign next_primary = load ? load_value : (step ? (primary + 4'd1) : primary);
assign next_shadow_base = load ? load_value : (step ? (shadow + 4'd1) : shadow);
assign next_shadow = inject_shadow_fault ? (next_shadow_base ^ 4'b0001) : next_shadow_base;
assign mismatch = (next_primary != next_shadow);
assign fault_next = fault_flag | mismatch;
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = ~fault_flag & rst_n;
assign halted = fault_flag;
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/pashencev/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_9 | run_20260424_172135_562392_bd9fc2 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_172135_562392_bd9fc2__sample_9
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] next_primary;
wire [3:0] next_shadow_nominal;
wire [3:0] next_shadow;
wire mismatch;
assign next_primary = load ? load_value : (step ? (primary + 4'd1) : primary);
assign next_shadow_nominal = load ? load_value : (step ? (shadow + 4'd1) : shadow);
assign next_shadow = inject_shadow_fault ? (next_shadow_nominal ^ 4'b0001) : next_shadow_nominal;
assign mismatch = (next_primary != next_shadow);
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_9 | run_20260424_230145_632624_082334 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_230145_632624_082334__sample_9
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next;
wire [3:0] shadow_next_faulty;
wire mismatch;
assign primary_next = load ? load_value : (step ? (primary + 4'd1) : primary);
assign shadow_next = load ? load_value : (step ? (shadow + 4'd1) : shadow);
assign shadow_next_faulty = inject_shadow_fault ? (shadow_next ^ 4'h1) : shadow_next;
assign mismatch = (primary_next != shadow_next_faulty);
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = ~fault_flag & rst_n;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/pashencev/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_10 | run_20260424_172135_562392_bd9fc2 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_172135_562392_bd9fc2__sample_10
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next;
wire [3:0] shadow_next_faulty;
wire mismatch;
assign primary_next = load ? load_value : (step ? (primary + 4'd1) : primary);
assign shadow_next = load ? load_value : (step ? (shadow + 4'd1) : shadow);
assign shadow_next_faulty = inject_shadow_fault ? (shadow_next ^ 4'b0001) : shadow_next;
assign mismatch = (primary_next != shadow_next_faulty);
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|
| sample_10 | run_20260424_230145_632624_082334 | ok | ok | ok | ok | ok | success | Full pipeline success |
Open detailssample_dir: E:\Work\MIEM\VKR\Analyse\data\model_dataset\models\gpt-5-4-mini\rag_on\benchmarks\ilyasov\tasks\ilyasov__10_fault_tolerant_safety__task_101\samples\run_20260424_230145_632624_082334__sample_10
generated.v previewmodule lockstep_event_counter (
input clk,
input rst_n,
input load,
input step,
input [3:0] load_value,
input inject_shadow_fault,
output [3:0] count,
output count_valid,
output reg fault_flag,
output halted
);
reg [3:0] primary;
reg [3:0] shadow;
wire [3:0] primary_next;
wire [3:0] shadow_next_base;
wire [3:0] shadow_next;
wire mismatch;
assign primary_next = load ? load_value : (step ? (primary + 4'h1) : primary);
assign shadow_next_base = load ? load_value : (step ? (shadow + 4'h1) : shadow);
assign shadow_next = inject_shadow_fault ? (shadow_next_base ^ 4'h1) : shadow_next_base;
assign mismatch = (primary_next != shadow_next);
assign count = fault_flag ? 4'h0 : primary;
assign count_valid = rst_n & ~fault_flag;
assign halted = fault_flag;
always @(posedge clk or negedge rst_n) begin
if (!rst_n) begin
...
functional details[stdout] TEST_PASSED /workspace/banchmarks/pashencev/10_fault_tolerant_safety/task_101/tb.v:148: $finish called at 106000 (1ps) synthesis details[error] None outcome{
"llm_ok": true,
"extract_ok": true,
"syntax_ok": true,
"functional_ok": true,
"openlane_ok": true,
"syntax_required": true,
"functional_required": true,
"openlane_required": true,
"final_success": true,
"success": true
}
|